Laporan an Struktur Gedung_Gabungan
January 23, 2018 | Author: ubaidahhasan | Category: N/A
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Example for 6th floor Building Design...
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LAPORAN
PERENCANAAN STRUKTUR GEDUNG Laporan ini disusun untuk memenuhi tugas mata kuliah Perencanaan Struktur Gedung sebagai salah satu syarat kelulusan menempuh semester 2 pada Jurusan Teknik Sipil dan Perencanaan Dosen Pembimbing : Ir. Ari Mulyo Dyah Utami M.Sc Disusun oleh : Dian Hernanto ( NIM : 08114737 ) G. Ginanjar ( NIM : 08114723 )
FAKULTAS TEKNIK SIPIL DAN PERENCANAAN
INSTITUT SAINS DAN TEKNOLOGI NASIONAL JAKARTA 2009
Sujud syukurku di Hadirat‐Mu Yang Maha Agung Robbul Arbab Allah ‘Ajja Wajalla Atas segala cahaya ilmu yang Engkau anugerahkan kepadaku. Kupersembahkan tugas ini untuk Ibunda tercinta, Do’a tulus sucinya yang tiada henti yang senantiasa mengiringi setiap hela nafasku hingga membuat semangat belajarku selalu hadir layaknya gelombang laut yang tak pernah berhenti. Kupersembahkan tugas ini untuk Almarhum Ayahanda tercinta, Nasihatnya untuk selalu bersabar, bertanggung jawab dan senantiasa menjunjung tinggi kejujuran hingga akhir hayat. Untukmu aku selalu bangga.
KATA PENGANTAR
Puji syukur penyusun panjatkan ke Hadirat Illahi Robbi yang telah melimpahkan Rahmat
dan HidayahNya, sehingga penyusun mampu menyelesaikan tugas perencanaan struktur gedung ini hingga tuntas dengan lancar.
Tugas ini menjelaskan tentang tahapan‐tahapan perancangan struktur gedung 7 lantai dari
mulai pondasi hingga struktur gedungnya. Metoda perancangannya berdasarkan desain kapasitas ( strong column weak beam ) sedangkan perhitungan gempanya dengan metoda statik ekuivalen. Perhitungan dilakukan secara manual dan dengan bantuan software STAAD Pro 2007, SAP 2000, GS AFES dan PCA Col.
Besar harapan penyusun semoga tugas ini bisa memberikan sumbangsih ilmu pengetahuan
bagi para pembaca yang budiman, kritik dan saran sangat penyusun harapkan demi kesempurnaan isi dan penyajian tugas ini. Tidak lupa penyusun ucapkan terima kasih kepada Dosen Mata Kuliah Perencanaan Struktur Gedung, Ibu Ir. Ari Mulyo Dyah Utami, M.Sc, yang telah memberikan bimbingan dan arahan dalam pengerjaan tugas ini. Ucapan terima kasih juga penyusun haturkan untuk rekan setia Dian Hernanto yang turut bekerja keras mengerjakan laporan ini dengan penuh dedikasi. Kepada rekan sekantor Mas Bachtiar Anwari yang ikut membantu mengetik laporan ini dengan penuh kesabaran. Tidak lupa untuk sahabat setia Nastitisari Dewi yang sudah menemani penyusun dalam mengerjakan laporan ini hingga larut malam dengan penuh keceriaan. Kepada rekan – rekan Program Perkuliahan Kelas Karyawan – ISTN yang telah memberikan inspirasi dan kerja‐sama yang baik. Dan kepada semua pihak yang turut membantu yang tidak dapat penyusun sebutkan namanya satu per satu.
Penyusun,
Jakarta, 22 November 2009
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
DAFTAR ISI LEMBAR ASISTENSI KATA PENGANTAR
DAFTAR ISI …………………………………………………………………………………………………………………
ii
DAFTAR GAMBAR ………………………………………………………………………………………………………
v
DAFTAR TABEL …………………………………………………………………………………………………………..
viii
BAB I
PENDAHULUAN ……………………………………………………………………………………………
I‐1
1.1 Nama dan Lokasi Proyek …………………………………………………………………………..
I‐1
1.2 Peraturan yang Digunakan ……………………………………………………………………….
I‐1
1.3 Spesifikasi Bahan ………………………………………………………………………………………
I‐1
1.4 Konsep dan Asumsi Perencanaan ……………………………………………………………..
I‐2
1.4.1 Konsep Desain Kapasitas …………………………………………………………………
I‐2
1.4.2 Lantai Sebagai Diafragma ……………………………………………………………….
I‐2
1.4.3 Load Factor dan Perhitungan Beban ...................................................
I‐3
1.5 Beban yang Diperhitungkan ……………………………………………………………………..
I‐3
1.6 Preliminary Design ……………………………………………………………………………………
I‐5
1.6.1 Pelat Lantai ……………………………………………………………………………………..
I‐5
1.6.2 Pelat Atap ………………………………………………………………………………………..
I‐8
1.6.3 Balok ……………………………………………………………………………………………….
I‐10
1.6.3.1 Balok Induk Pelat Atap ………………………………………………………..
I‐10
1.6.3.2 Balok Induk Pelat Lantai ………………………………………………………
I‐12
1.6.3.3 Balok Anak Pelat Atap …………………………………………………………
I‐14
1.6.3.4 Balok Anak Pelat Lantai ………………………………………………………
I‐16
1.6.4 Kolom ………………………………………………………………………………………………
I‐18
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
ii
BAB II DENAH DAN POTONGAN STRUKTUR GEDUNG………………………………………………
II‐1
2.1 Denah Struktur Gedung ……………………………………………………………………………
II‐1
2.2 Potongan Struktur Gedung ……………………………………………………………………….
II‐3
BAB III PEMERIKSAAN TATA LETAK STRUKTUR GEDUNG …………………………………………
III‐1
3.1 Tata Letak Struktur Gedung ………………………………………………………………………
III‐1
3.2 Pusat Massa dan Pusat Kekakuan ……………………………………………………………..
III‐4
3.2.1 Pusat Massa ……………………………………………………………………………………
III‐4
3.2.2 Pusat Kekakuan ………………………………………………………………………………
III‐6
BAB IV PERHITUNGAN PEMBEBANAN ……………………………………………………………………..
IV‐1
4.1 Perhitungan Beban Gravitasi ( w ) ……………………………………………………………..
IV‐1
4.2 Perhitungan Beban Gempa ………………………………………………………………………
IV‐7
BAB V PERHITUNGAN MEKANIKA STRUKTUR ………………………………………………………….
V‐1
5.1 Mekanika Pelat ………………………………………………………………………………………..
V‐1
5.1.1 Beban Pelat Lantai …………………………………………………………………………
V‐1
5.1.2 Beban Pelat Atap ……………………………………………………………………………
V‐1
5.2 Mekanika Portal ……………………………………………………………………………………….
V‐4
5.2.1 Mekanika Portal Melintang Beban Gravitasi ……………………………………
V‐4
5.2.2 Mekanika Portal Melintang Beban Gravitasi + Gempa ……………………
V‐4
5.2.3 Mekanika Portal Memanjang Beban Gravitasi ………………………………….
V‐4
5.2.4 Mekanika Portal Memanjang Beban Gravitasi + Gempa …………………
V‐5
BAB VI PERHITUNGAN PENULANGAN STRUKTUR …………………………………………………….
VI‐1
6.1 Perhitungan Penulangan Pelat …………………………………………………………………
VI‐1
6.1.1 Penulangan Lentur Pelat Lantai ……………………………………………………….
VI‐1
6.1.2 Penulangan Lentur Pelat Atap …………………………………………………………
VI‐2
6.2 Perhitungan Penulangan Balok …………………………………………………………………
VI‐5
6.2.1 Penulangan Balok Akibat Momen Lentur ………………………………………..
VI‐5
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
iii
6.2.2 Penulangan Geser Balok ………………………………………………………………….
VI‐12
6.2.3 Pemutusan Tulangan Balok ……………………………………………………………..
VI‐17
6.3 Perhitungan Penulangan Kolom ……………………………………………………………….
VI‐22
6.3.1 Pengaruh Beban Gempa Orthogonal ……………………………………………….
VI‐22
6.3.2 Penulangan Memanjang Kolom ………………………………………………………
VI‐22
6.3.3 Pengekangan Kolom ……………………………………………………………………….
VI‐26
6.3.4 Penulangan Transversal untuk Beban Geser ……………………………………
VI‐27
6.3.5 Sambungan Lewatan Tulangan Vertikal Kolom ……………………………….
VI‐28
6.4 Desain Hubungan Balok – Kolom ………………………………………………………………
VI‐30
6.4.1 Hubungan Balok – Kolom Tengah ……………………………………………………
VI‐30
6.4.2 Hubungan Balok – Kolom Tepi …………………………………………………………
VI‐33
BAB VII PERHITUNGAN FONDASI ………………………………………………………………………………
VII‐1
7.1 Data Hasil Uji Tanah ………………………………………………………………………………….
VII‐1
7.1.1 Hasil Uji Tanah di Lapangan …………………………………………………………….
VII‐1
7.1.2 Hasil Uji Laboratorium …………………………………………………………………….
VII‐2
7.2 Perhitungan Fondasi …………………………………………………………………………………
VII‐3
7.2.1 Preliminary Design Fondasi ……………………………………………………………..
VII‐3
7.2.2 Daya Dukung Fondasi ………………………………………………………………………
VII‐2
7.2.2.1 Daya Dukung Fondasi Terhadap Gaya Tarik ( Uplift ) …………..
VII‐9
7.2.2.2 Daya Dukung Fondasi Terhadap Gaya Tekan ( Compressive )
VII‐11
7.2.2.3 Daya Dukung Fondasi Terhadap Gaya Geser ( Shear ) …………
VII‐13
7.2.3 Punching Shear pada Pile Cap ……………………………………………………….... VII‐14 7.2.4 Perhitungan Tulangan Fondasi ………………………………………………………..
VII‐19
7.2.4.1 Perhitungan Tulangan Pile Cap …………………………………………… VII‐19 7.2.4.2 Perhitungan Tulangan Pedestal …………………………………………..
VII‐22
7.2.4.3 Perhitungan Tulangan Bored Pile ……………………………………….. VII‐25 7.2.4.4 Perhitungan Tulangan Tie Beam ………………………………………….
VII‐26
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
iv
BAB VIII PERHITUNGAN TANGGA ……………………………………………………………………………..
VIII‐1
8.1 Perencanaan Geometri Tangga …………………………………………………………………
VIII‐1
8.2 Pembebanan Tangga …………………………………………………………………………………
VIII‐3
8.3 Penulangan Tangga …………………………………………………………………………………..
VIII‐4
LAMPIRAN Lampiran 1 Print out Analisa Struktur Gedung dengan Software STAAD Pro 2007 Lampiran 2 Print out Analisa Fondasi dengan Software GS AFES Lampiran 3 Print out Analisa Struktur Tangga dengan Software SAP 2000 Lampiran 4 Tabel – Tabel Koefisien untuk Perhitungan Beton Lampiran 5 Data Soil Test DAFTAR PUSTAKA
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
v
DAFTAR GAMBAR Gambar 1.a Sketsa pelat lantai yang ditinjau ………………………………………………………………..
I‐6
Gambar 1.b Sketsa pelat atap yang ditinjau ………………………………………………………………….
I‐9
Gambar 1.c Sketsa tributary pembebanan pada balok induk pelat atap ……………………….
I‐10
Gambar 1.d Sketsa tributary pembebanan pada balok induk pelat atap tampak
samping ……………………………………………………………………………………………………
I‐11
Gambar 1.e Sketsa tributary pembebanan pada balok induk pelat lantai …………………….
I‐12
Gambar 1.f Sketsa tributary pembebanan pada balok induk pelat lantai tampak
samping ……………………………………………………………………………………………………
I‐13
Gambar 1.g Sketsa tributary pembebanan pada balok anak pelat atap ………………………..
I‐14
Gambar 1.h Sketsa tributary pembebanan pada balok anak pelat atap tampak samping
I‐15
Gambar 1.i Sketsa tributary pembebanan pada balok anak pelat lantai ……………………….
I‐16
Gambar 1.j Sketsa tributary pembebanan pada balok anak pelat lantai tampak samping
I‐17
Gambar 1.k Sketsa distribusi pembebanan terhadap kolom …………………………………………
I‐18
Gambar 2.a Sketsa denah lantai atap ……………………………………………………………………………
II‐1
Gambar 2.b Sketsa denah lantai 1 – 6 …………………………………………………………………………..
II‐2
Gambar 2.c Denah lantai atap pada pemodelan STAAD Pro …………………………………………
II‐2
Gambar 2.d Potongan memanjang ……………………………………………………………………………….
II‐3
Gambar 2.e Potongan melintang ………………………………………………………………………………….
II‐4
Gambar 2.f Perspektif memanjang pada pemodelan STAAD Pro ………………………………….
II‐4
Gambar 2.g Perspektif melintang pada pemodelan STAAD Pro …………………………………….
II‐5
Gambar 2.h Tampak 3 dimensi pada pemodelan STAAD Pro ………………………………………..
II‐5
Gambar 3.a Penomoran kolom pada denah kolom lantai 1 – atap ..................................
III‐4
Gambar 3.b Koordinat pusat massa dan pusat kekakuan ................................................
III‐6
Gambar 3.c Letak Pusat massa dan pusat kekakuan pada tiap lantai ……………………………
III‐7
Gambar 3.d Letak Pusat massa dan pusat kekakuan pada tiap lantai …………………………..
III‐7
Gambar 4.a Penempatan beban gempa arah X ( ELx ) pada struktur gedung ………………..
IV‐10
Gambar 4.b Penempatan beban gempa arah Y ( ELy ) pada struktur gedung ……………….
IV‐10
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
v
Gambar 5.a Model pelat ...................................................................................................
V‐2
Gambar 6.a Penentuan jarak d pada pelat lantai .............................................................
VI‐1
Gambar 6.b Penulangan tipikal pelat lantai ………………………………………………………………….
VI‐2
Gambar 6.c Penentuan jarak d pada pelat atap ...............................................................
VI‐3
Gambar 6.d Penulangan tipikal pelat atap ……………………………………………………………………
VI‐4
Gambar 6.e Nilai momen desain bentang ujung yang diambil dari output STAAD Pro ….
VI‐5
Gambar 6.f Nilai momen desain bentang dalam yang diambil dari output STAAD Pro ….
VI‐5
Gambar 6.g Lebar flens efektif balok T …………………………………………………………………………
VI‐9
Gambar 6.h Gaya lintang rencana untuk SRPMM …………………………………………………………
VI‐12
Gambar 6.i Gaya lintang maksimum akibat beban gempa arah sumbu X ……………………..
VI‐13
Gambar 6.j Gaya lintang maksimum akibat beban mati ( DL ) ………………………………………
VI‐14
Gambar 6.k Gaya lintang maksimum akibat kombinasi beban mati dan gempa arah X …
VI‐15
Gambar 6.l Diagram momen untuk penghentian tulangan negatif pada perletakan
interior ……………………………………………………………………………………………………..
VI‐18
Gambar 6.m Diagram geser maksimum pada perletakan interior …………………………………
VI‐20
Gambar 6.n Penulangan balok rangka lantai 2 as A ………………………………………………………
VI‐21
Gambar 6.o Diagram interaksi kuat rencana kolom tengah pada lantai 1 ( kolom K 5‐C )
VI‐25
Gambar 6.p Diagram interaksi kuat rencana kolom tepi pada lantai 1 ( kolom K 2‐A ) ….
VI‐25
Gambar 6.q Gaya lintang rencana untuk SRPMM …………………………………………………………
VI‐27
Gambar 6.r Detail penulangan kolom tengah ( K 5‐C ) ………………………………………………….
VI‐29
Gambar 6.s Detail penulangan kolom tengah ( K 5‐C ) ………………………………………………….
VI‐30
Gambar 6.t Analisa geser dari HBK kolom tengah ( K 5‐C ) ……………………………………………
VI‐31
Gambar 6.u Luas efektif hubungan balok‐kolom ………………………………………………………….
VI‐32
Gambar 6.v Analisa geser dari HBK kolom tepi ( K 2‐A ) ………………………………………………..
VI‐33
Gambar 7.a Rencana fondasi bored pile ...........................................................................
VII‐4
Gambar 7.b Transfer gaya pada tiap‐tiap bored pile ( uplift terbesar ) ............................
VII‐6
Gambar 7.c Transfer gaya pada tiap‐tiap bored pile ( compressive terbesar ) .................
VII‐7
Gambar 7.d Reaksi perletakan akibat beban kolom terhadap fondasi ( uplift ) ...............
VII‐9
Gambar 7.e Reaksi perletakan akibat beban kolom terhadap fondasi ( compressive ) ....
VII‐11
Gambar 7.f Punching shear dua arah pada pile cap akibat gaya pedestal .......................
VII‐14
Gambar 7.g Punching shear satu arah pada pile cap akibat gaya pedestal ......................
VII‐16
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
vi
Gambar 7.h Layout fondasi ...............................................................................................
VII‐18
Gambar 7.i Analisis momen fondasi bored pile ...............................................................
VII‐19
Gambar 7.j Penulangan pile cap ....................................................................................... VII‐21 Gambar 7.k Penulangan pedestal .....................................................................................
VII‐24
Gambar 7.l Penulangan tie beam .....................................................................................
VII‐27
Gambar 7.m Penulangan fondasi .....................................................................................
VII‐28
Gambar 8.a Geometri tangga ...........................................................................................
VIII‐2
Gambar 8.b Geometri tangga pada pemodelan SAP 2000 ...............................................
VIII‐3
Gambar 8.c Pembebanan tangga pada pemodelan SAP 2000 ..........................................
VIII‐4
Gambar 8.d Momen maksimum pada struktur tangga ....................................................
VIII‐5
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
vii
DAFTAR TABEL Tabel 1.1 Summary Preliminary Design ………………………………………………………………..........
I‐24
Tabel 3.1 Pemeriksaan tata letak struktur …………………………………………………………………….
III‐1
Tabel 3.2 Perhitungan pusat massa pada lantai 1 …………………………………………………………
III‐5
Tabel 4.1 Summary berat total tiap lantai …………………………………………………………………….
IV‐6
Tabel 4.2 Gaya gempa tiap lantai dengan T1 = 0,95 detik ……………………………………………
IV‐8
Tabel 4.3 Analisa T Rayleigh akibat gempa pada arah sumbu Y gedung ………………………..
IV‐9
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
viii
BAB I PENDAHULUAN 1.1 Nama dan Lokasi Proyek Gedung yang akan dirancang adalah gedung perkantoran dengan nama Graha ISTN, dengan tinggi gedung 30.8 m dan jumlah lantai sebanyak 7 lantai. Struktur gedung direncanankan dengan menggunakan beton bertulang sedangkan pondasinya menggunakan tiang pancang. Adapun data lengkap proyek perencanaan gedung ini adalah sebagai berikut :
# Nama proyek
: Proyek Perencanaan Gedung Graha ISTN
# Lokasi proyek
: Jl. Moch. Kahfi III, Srengseng Sawah, Jakarta Selatan
# Tinggi gedung
: 30,8 m
# Jumlah lantai
: 7 lantai
# Tinggi tiap lantai
: 4,4 m
# Konsultan perencana : PT. RAJA KONSULTAN 1.2 Peraturan yang Digunakan
Peraturan‐peraturan yang digunakan dalam perencanaan gedung ini adalah sebagai
berikut : 1. Tata Cara Perhitungan Struktur Beton Bertulang untuk Bangunan Gedung SK SNI T‐15‐ 1991‐03. 2. Tata Cara Perencanaan Ketahanan Gempa untuk Bangunan Gedung SNI 03‐1726‐2002. 3. Pedoman Perencanaan Pembebanan untuk Rumah dan Gedung SKBI – 1.3.53.1987. 1.3 Spesifikasi Bahan
Spesifikasi bahan‐bahan yang digunakan dalam perencanaan gedung ini adalah sebagai
berikut : Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
I ‐ 1
1. Mutu beton ( f’c )
: 300 kg/cm2
2. Modulus elastisitas beton ( Ec ) : 4700 f'c = 81406,39 kg/cm2 3. Mutu baja ( fy )
: 2400 kg/cm2
4. Modulus elastisitas baja ( Es )
: 2 x 105 MPa = 2 x 106 kg/cm2
1.4 Konsep dan Asumsi Perencanaan Konsep dan Asumsi yang dipakai dalam perencanaan ini adalah sebagai berikut : 1.4.1 Konsep Desain Kapasitas Dalam perencanaan, prinsip yang dipakai adalah balok lemah dan kolom kuat dengan sendi‐sendi pada setiap ujung balik. Yang dimaksud di sini adalah keruntuhan yang pertama kali terjadi pada balok terlebih dahulu kemudian kolom, sehingga dalam perencanaan profil kolom momen balok yang dipakai adalah momen kapasitas balok. Dapat juga dikatakan konsep balok lemah kolom kuat ini dimaksudkan agar jika terjadi beban gempa yang sangat besar maka struktur gedung akan tetap kokoh, karena kolomnya kuat dan jika terjadi kerusakan atau kehancuran pada salah satu lantai maka yang menderita kerusakan hanyalah lantai itu sendiri dan satu lantai dibawahnya saja, karena baloknya lemah. Jika ternyata balok tersebut tidak sanggup menahan gaya‐gaya yang diatasnya dan ada kemungkinan runtuh maka runtuhnya vertikal ke bawah, sehingga tidak mengganggu gedung‐gedung di‐ sebelahnya. Desain kapasitas dihitung sesuai dengan persyaratan SK SNI T‐15‐1991‐03. Perhitungan ketahanan gempa berdasarkan atas respon spectra zona gempa IV dan dibangun di atas tanah lunak. Dimana pola dari distribusi gaya gempa tersebut menggunakan analisa statis ekuivalen. 1.4.2 Lantai sebagai Diafragma Lantai gedung ini berfungsi sebagai diafragma artinya lantai ini sanggup meneruskan beban / gaya yang diterimanya, dengan ketebalan 12 cm (PBI 1971) untuk masing‐masing gedung dari lantai 1 sampai 6 dan untuk atap dengan tebal 10 cm. Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
I ‐ 2
1.4.3 Load Factor dan Perhitungan Beban Beban‐beban yang diperhitungkan dalam perencanaan meliputi :
# Beban mati ( DL ) Adalah beban berat sendiri dari masing‐masing komponen bangunan yang ditinjau dan beban – beban yang bekerja pada pelat lantai dan pelat atap yang besarnya telah ditentukan oleh Peraturan Muatan Indonesia.
# Beban hidup ( LL ) Adalah beban – beban hidup yang terjadi pada masing‐masing lantai yang besarnya telah ditentukan oleh Peraturan Muatan Indonesia.
# Beban angin ( WL ) Adalah beban angin tang bekerja pada dinding bangunan yang besarnya telah ditentukan oleh Peraturan Muatan Indonesia.
# Beban gempa ( EL ) Beban gempa yang diperkirakan akan terjadi dan besarnya dihitung berdasarkan atas analisa gempa statik ekuivalen dengan Wilayah Gempa IV. Perhitungan beban menggunakan teori kekuatan batas dengan load factor sebagai berikut : a. 1,4 DL b. 1,2 DL + 1,6 LL c. 1,2 DL + 1,0 LL + 1,6 WL d. 0,9 DL + 1,6 WL e. 1,2 DL + 1,0 LL ± 1,0 EL ( gempa ditinjau pada arah X dan arah Y ) f. 0,9 DL ± 1,0 EL ( gempa ditinjau pada arah X dan arah Y ) 1.5 Beban yang Diperhitungkan Peraturan yang digunakan adalah PEDOMAN PERENCANAAN PEMBEBANAN UNTUK RUMAH DAN GEDUNG ( SKBI – 1.3.53.1987 )
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
I ‐ 3
1. Beban mati (PPPURG Pasal 2.1.1) Berat sendiri bahan bangunan dan komponen gedung (tabel 1 PPPURG)
# Beton bertulang
= 2400 kg/m3
# Pasangan bata merah
= 1700 kg/m3
# Pasangan bata merah setengah batu
= 250 kg/m2
# Adukan, per cm tebal (dari semen)
= 21 kg/m2
# Plafon (tanpa penggantung)
= 11 kg/m2
# Penggantung langit‐langit
= 7 kg/m2
# Beban hidup pada lantai perkantoran
= 250 kg/m2
# Beban air hujan
2. Beban hidup (PPPURG pasal 2.1.2)
= 5 kg/m2
= 100 kg/m2
# Beban hidup pada tangga perkantoran
= 300 kg/m2
# Beban terpusat dari pekerja
3. Beban angin (PPPURG pasal 2.1.3) Beban angin dihitung dengan rumus :
Tekanan tiup ( P ) =
V2 ( kg/m2 ) 16
Dimana V adalah kecepatan angin dalam m/det., dalam perencanaan gedung ini diasumsikan nilai V = 79 km/jam = 79 m/det. Maka :
Tekanan tiup ( P ) =
79 2 = 30 ( kg/m2 ) 16
Jadi nilai tekanan tiup ( P ) tersebut memenuhi persyaratan batas minimum tekanan tiup ( P ) dalam ( PPPURG pasal 2.1.3 ) yakni minimum 25 kg/m2.
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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Tekanan tiup ( P ) terhadap bangunan dipengaruhi oleh ketinggian bangunan tersebut, karena semakin tinggi elevasinya dari muka tanah maka semakin besar pula nilai P nya. Oleh karena itu nilai P tersebut harus dikalikan dengan koefisien tekanan tiup ( Kz ), yang dinyatakan dalam rumus : Kz = ( z/10 )2/7 ===> sesuai dengan ketentuan dalam ASCE dan Design Manual Structural Engineering ( NAVFAC DM‐2 ) Dimana : z = elevasi bangunan dari muka tanah ( m ) 1.6 Preliminary Design 1.6.1 Pelat Lantai Pembebanan pada pelat lantai adalah sebagai berikut : A. Beban Mati ( Dead Load )
# Berat sendiri pelat lantai ( asumsi t = 12 cm ) = 0,12 m x 2400 kg/m3 = 288 kg/m2 # Adukan ( asumsi t = 2 cm )
= 2 x 21 kg/m2
# Keramik ( asumsi t = 0,5 cm )
= 0.005 m x 2200 kg/m3 = 11 kg/m2
# Plafond dan rangka plafond
= ( 11 + 7 ) kg/m2
= 18 kg/m2
# Mechanical & Electrical
= 25 kg/m2
= 42 kg/m2
q DL = 384 kg/m2
B. Beban Hidup ( Live Load )
# Beban hidup lantai gedung perkantoran
= 250 kg/m2
q LL
= 250 kg/m2
Untuk analisa awal / preliminary design pelat lantai ini maka digunakan bentang yang paling besar, baik pelat lantai maupun pelat atap. Cara perhitungan keduanya adalah sama. Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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Kolom
Balok Anak
Ly = 6,8 m
Pelat Lantai
Balok Induk
Lx = 3 m
Gambar 1.a Sketsa pelat lantai yang ditinjau
Lendutan balok atas tumpuan sederhanaakibat bebanmerataadalah:
5 (qu)( Ln)4 Δ= 384 EI Akibat pelat lantai yang ditinjau melendut pada kedua arah ( arah x dan arah y ), maka perhitungan lendutannya pun pada kedua arah tersebut.
5 (qx )( Lx )4 5 (qy )( Ly )4 Δx = dan Δy = 384 EI 384 EI Δx = Δy qx (Lx )4 = qy (Ly )4 qx (Lx )4 qx (3)4 qy = = = 0,038 qx ......................... ( 1 ) 6,8 4 Ly 4
qx + qy = qu qy = qu - qx ......................... ( 2 ) Pers. ( 1 ) & ( 2 ) ===> 0,038 qx = qu ‐ qx qu = 1,038 qx ......................... ( 3 ) Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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qu = 1,2 ( q DL ) + 1,6 ( q LL ) = 1,2 ( 384 ) + 1,6 ( 250 ) = 860,8 kg/m2 = 860,8 kg/m2 x 1m = 860,8 kg/m ......................... ( 4 ) Pers. ( 3 ) & ( 4 ) ===> 1,038 qx = 860,8 kg/m qx = 829,3 kg/m Dari Pers. ( 2 ) ===> qy = 31,5 kg/m MRx = 1 8 (qx) (Lx)2 = 1 8 (829,3) (3)2 = 932,9 kg m = 0,933 t m MRy = 1 8 (qy) (Ly)2 = 1 8 (31,5) (6,8)2 = 182,1 kg m = 0,182 t m Regangan leleh baja (ε y ) ditentukan berdasarkan hukum Hooke : Es =
fy fy 2400 ===> ε y = = = 0,0012 εy E s 2x10 5
Keadaan keseimbangan regangan memberikan : Kb =
0,003 0,003 = = 0,71 0,003 + ε y 0,003 + 0,0012
Harga perbandingan tulangan maksimum : K c = 0,75 K cb = 0,75 (0,71) = 0,53 K a = βK c = 0,85 (0,53) = 0,45 K z = 1 − 0,5 K a = 1 − 0,5 (0,45) = 0,77 Kd2 =
1 1 = = 0,0113 cm2 /kg = 0,00113 m2 /t 0,85 x fc' x K a x K z 0,85 x 300 x 0,45 x 0,77
MR = Φ Mn ===> Mn =
MR Φ
Berdasarkan SK SNI T ‐ 15 ‐ 1991 ‐ 03 pasal 2.2.3 ayat 2, nilai Φ diambil 0.80 , maka : Mnx =
MR x 0,933 = = 1,166 t m 0,80 0,80
Kapasitas momen MR adalah kuat momen ideal Mn dikalikan dengan faktor Φ, maka :
M MR = Φ Mn ===> Mn = R Φ Berdasarkan SK SNI T ‐ 15 ‐ 1991 ‐ 03 pasal 2.2.3 ayat 2, nilai Φ diambil 0.80 , maka : nx = MR x = 0,933 = 1,166 t m M 0,80 0,80 Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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M y 0,182 Mny = R = = 0,227 t m 0,80 0,80 b x d2 b x d2 Mo = ===> M = ; digunakan M terbesar ox Kd2 Kd2 1 x d2 1 ,166 = 0,00113 d = 0,036 m = 3,6 cm ===> maka diambil 12 cm Sesuai dengan standar PBI 71 pasal 9.1 ayat 1 yang menyatakan :
# Tebal pelat lantai yang dipergunakan 12 cm 1.6.2 Pelat Atap Pembebanan pada pelat atap adalah sebagai berikut : A. Beban Mati ( Dead Load )
# Berat sendiri pelat lantai ( asumsi t = 10 cm ) = 0,10 m x 2400 kg/m3 = 240 kg/m2 # Genangan air hujan ( 5 mm )
= 0,005 m x 1000 kg/m3 = 5 kg/m2
# Plafond dan rangka plafond
= ( 11 + 7 ) kg/m2
= 18 kg/m2
# Mechanical & Electrical
= 40 kg/m2
q DL = 303 kg/m2
B. Beban Hidup ( Live Load )
# Beban hidup lantai gedung perkantoran
= 100 kg/m2
q LL
= 100 kg/m2
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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Kolom
Balok Anak
Pelat Atap
Ly = 6,8 m
Balok Induk
Lx = 3 m
Gambar 1.b Sketsa pelat atap yang ditinjau
Dengan cara yang sama seperti pada perhitungan pelat lantai pada sub bab 1.5.1, maka diperoleh : MRx = 582,3 t m MRy = 109,8 t m Kemudian diperoleh : Mnx = 0,727 t m Mny = 0,137 t m Maka diperoleh : d = 0,028 m = 2,8 cm ===> maka diambil 10 cm Sesuai dengan standar PBI 71 pasal 9.1 ayat 1 yang menyatakan :
# Tebal pelat atap yang dipergunakan 10 cm Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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1.6.3 Balok 1.6.3.1 Balok Induk Pelat Atap
Pembebanan pada balok induk merupakan beban beban pelat atap yang menumpu di‐ atasnya, yaitu : A. Beban Mati ( Dead Load )
# Berat sendiri pelat lantai ( asumsi t = 10 cm ) = 0,10 m x 2400 kg/m3 = 240 kg/m2 # Genangan air hujan ( 5 mm )
= 0,005 m x 1000 kg/m3 = 5 kg/m2
# Plafond dan rangka plafond
= ( 11 + 7 ) kg/m2
= 18 kg/m2
# Mechanical & Electrical
= 40 kg/m2
q DL = 303 kg/m2
B. Beban Hidup ( Live Load )
# Beban hidup lantai gedung perkantoran
= 100 kg/m2
q LL
= 100 kg/m2
Balok Induk yang Ditinjau
Kolom
Ly = 6,8 m
Balok Anak Pelat Atap
Pelat Atap Balok Induk
Lx = 3 m
Lx = 3 m
Gambar 1.c Sketsa tributary pembebanan pada balok induk pelat atap
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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Selanjutnya adalah menentukan dimensi balok induk tersebut dengan analisa sebagai berikut :
h = 1,5 m
h = 1,5 m
Ly = 6,8 m
Gambar 1.d Sketsa tributary pembebanan pada balok induk pelat atap tampak samping
Dari gambar 1.d tersebut maka selanjutnya diperoleh beban ekivalen sebagai berikut : qDL = ( 303 kg/m2 x 1,5 m ) x 2 = 909 kg/m qLL = ( 100 kg/m2 x 1,5 m ) x 2 = 300 kg/m qu
= 1,2 qDL + 1,6 qLL = 1,2 ( 909 ) + 1,6 ( 300 ) = 1570,8 kg/m
Maka : Mmaks = qu 24 ( 3L2 ‐ 4h2 )
= ( 1570,8 24 ) ( 3 ( 6,8 )2 ‐ 4 ( 1,5 )2 ))
= 8490,2 kg m
= 8,49 t m M 8,49 Mn = maks = = 10,61 t m 0,80 0,80
b x d2 Mn = ; ambil b = 20 cm Kd2
0,20 x d2 10,61 = ===> d = 0,24 m ≈ 30 cm 0,00113
Maka digunakan dimensi balok induk pelat atap 20 cm x 30 cm. Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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1.6.3.2 Balok Induk Pelat Lantai
Pembebanan pada balok induk merupakan beban beban pelat lantai yang menumpu di‐ atasnya, yaitu : A. Beban Mati ( Dead Load )
# Berat sendiri pelat lantai ( asumsi t = 12 cm ) = 0,12 m x 2400 kg/m3 = 288 kg/m2 # Adukan ( asumsi t = 2 cm )
= 2 x 21 kg/m2
# Keramik ( asumsi t = 0,5 cm )
= 0.005 m x 2200 kg/m3 = 11 kg/m2
# Plafond dan rangka plafond
= ( 11 + 7 ) kg/m2
= 18 kg/m2
# Mechanical & Electrical
= 25 kg/m2
= 42 kg/m2
q DL = 384 kg/m2
B. Beban Hidup ( Live Load )
# Beban hidup lantai gedung perkantoran
= 250 kg/m2
q LL
= 250 kg/m2
Balok Induk yang Ditinjau
Kolom
Ly = 6,8 m
Balok Anak Pelat Lantai
Pelat Lantai Balok Induk
Lx = 3 m
Lx = 3 m
Gambar 1.e Sketsa tributary pembebanan pada balok induk pelat lantai
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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Selanjutnya adalah menentukan dimensi balok induk tersebut dengan analisa sebagai berikut :
h = 1,5 m h = 4,4 m
h = 1,5 m
Ly = 6,8 m
Gambar 1.f Sketsa tributary pembebanan pada balok induk pelat lantai tampak samping
Dari gambar 1.d tersebut maka selanjutnya diperoleh beban ekivalen sebagai berikut : qDL = ( 384 kg/m2 x 1,5 m ) x 2 = 1152 kg/m qLL = ( 250 kg/m2 x 1,5 m ) x 2 = 750 kg/m qu
= 1,2 qDL + 1,6 qLL = 1,2 ( 1152 ) + 1,6 ( 750 ) = 2582,4 kg/m
qdinding = 250 kg/m2 x 4,4 m = 1100 kg/m qu dinding = ( 1,2 x 1100 ) = 1320 kg/m Maka : Mmaks = (( qu 24) ( 3L2 ‐ 4h2 )) + ( 1 8 ( qdinding ) ( L )2 )
= (( 2582,4 24) ( 3 ( 6,8 )2 ‐ 4 ( 1,5 )2 )) + ( 1 8 ( 1320 ) ( 6,8 )2 )
= 13957,87 + 7629,60 kg m
= 21587,47 kg m = 21,59 t m M 21,59 = 26,99 t m Mn = maks = 0,80 0,80 Mn =
b x d2 ; ambil b = 20 cm Kd2
26,99 =
0,20 x d2 ===> d = 0,39 m ≈ 40 cm 0,00113
Maka digunakan dimensi balok induk pelat lantai 20 cm x 40 cm.
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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1.6.3.3 Balok Anak Pelat Atap
Pembebanan pada balok anak merupakan beban beban pelat atap yang menumpu di‐ atasnya, yaitu : A. Beban Mati ( Dead Load )
# Berat sendiri pelat lantai ( asumsi t = 10 cm ) = 0,10 m x 2400 kg/m3 = 240 kg/m2 # Genangan air hujan ( 5 mm )
= 0,005 m x 1000 kg/m3 = 5 kg/m2
# Plafond dan rangka plafond
= ( 11 + 7 ) kg/m2
= 18 kg/m2
# Mechanical & Electrical
= 40 kg/m2
q DL = 303 kg/m2
B. Beban Hidup ( Live Load )
# Beban hidup lantai gedung perkantoran
= 100 kg/m2
q LL
= 100 kg/m2
Balok Anak yang Ditinjau
Kolom
Ly = 6,8 m
Pelat Atap
Pelat Atap Balok Induk
Lx = 3 m
Lx = 3 m
Gambar 1.g Sketsa tributary pembebanan pada balok anak pelat atap Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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Selanjutnya adalah menentukan dimensi balok anak tersebut dengan analisa sebagai berikut :
h = 1,5 m
h = 1,5 m Ly = 6,8 m Gambar 1.h Sketsa tributary pembebanan pada balok anak pelat atap tampak samping
Dari gambar 1.d tersebut maka selanjutnya diperoleh beban ekivalen sebagai berikut : qDL = ( 303 kg/m2 x 1,5 m ) x 2 = 909 kg/m qLL = ( 100 kg/m2 x 1,5 m ) x 2 = 300 kg/m qu
= 1,2 qDL + 1,6 qLL = 1,2 ( 909 ) + 1,6 ( 300 ) = 1570,8 kg/m
Maka : Mmaks = qu 24 ( 3L2 ‐ 4h2 )
= ( 1570,8 24 ) ( 3 ( 6,8 )2 ‐ 4 ( 1,5 )2 ))
= 8490,2 kg m
= 8,49 t m
Mmaks 8,49 M n = 0,80 = 0,80 = 10,61 t m
Mn =
b x d2 ; ambil b = 20 cm Kd2
10,61 =
0,20 x d2 ===> d = 0,24 m ≈ 25 cm 0,00113
Maka digunakan dimensi balok anak pelat atap 20 cm x 25 cm. Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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1.6.3.4 Balok Anak Pelat Lantai
Pembebanan pada balok anak merupakan beban beban pelat lantai yang menumpu di‐ atasnya, yaitu : A. Beban Mati ( Dead Load )
# Berat sendiri pelat lantai ( asumsi t = 12 cm ) = 0,12 m x 2400 kg/m3 = 288 kg/m2 # Adukan ( asumsi t = 2 cm )
= 2 x 21 kg/m2
# Keramik ( asumsi t = 0,5 cm )
= 0.005 m x 2200 kg/m3 = 11 kg/m2
# Plafond dan rangka plafond
= ( 11 + 7 ) kg/m2
= 18 kg/m2
# Mechanical & Electrical
= 25 kg/m2
= 42 kg/m2
q DL = 384 kg/m2
B. Beban Hidup ( Live Load )
# Beban hidup lantai gedung perkantoran
= 250 kg/m2
q LL
= 250 kg/m2
Balok Anak yang Ditinjau
Kolom
Ly = 6,8 m
Pelat Lantai
Pelat Lantai Balok Induk
Lx = 3 m
Lx = 3 m
Gambar 1.i Sketsa tributary pembebanan pada balok anak pelat lantai
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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Selanjutnya adalah menentukan dimensi balok anak tersebut dengan analisa sebagai berikut :
h = 1,5 m
h = 1,5 m Ly = 6,8 m Gambar 1.j Sketsa tributary pembebanan pada balok anak pelat lantai tampak samping
Dari gambar 1.d tersebut maka selanjutnya diperoleh beban ekivalen sebagai berikut : qDL = ( 384 kg/m2 x 1,5 m ) x 2 = 1152 kg/m qLL = ( 250 kg/m2 x 1,5 m ) x 2 = 750 kg/m
qu
= 1,2 qDL + 1,6 qLL = 1,2 ( 1152 ) + 1,6 ( 750 ) = 2582,4 kg/m
Maka : Mmaks = ( qu 24) ( 3L2 ‐ 4h2 )
= ( 2582,4 24) ( 3 ( 6,8 )2 ‐ 4 ( 1,5 )2 )
= 13957,87 kg m
= 13,96 t m M 13,96 = 17,45 t m Mn = maks = 0,80 0,80
b x d2 Mn = ; ambil b = 20 cm Kd2
0,20 x d2 17,45 = ===> d = 0,31m ≈ 35 cm 0,00113
Maka digunakan dimensi balok anak pelat lantai 20 cm x 35 cm.
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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1.6.4 Kolom
Area Beban yang Dipikul oleh Kolom
Ly2 = 6,8 m
Balok Induk
Pelat Lantai
Kolom yang Ditinjau
Ly1 = 5 m
Balok Anak
Lx = 6 m
Lx = 6 m
Gambar 1.k Sketsa distribusi pembebanan terhadap kolom
Luas daerah pembebanan = (( 6,8 m / 2 ) + ( 5 m / 2 )) x 6 m = 35,4 m2 Panjang balok induk = (( 6,8 m / 2 ) + ( 5 m / 2 )) + 6 m = 11,9 m Panjang balok anak = ((( 6,8 m / 2 ) + ( 5 m / 2 )) x 2 ) + 6 m = 17,8 m
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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A. Beban Pelat Lantai Tiap m2 1) Beban Mati ( Dead Load )
# Berat sendiri pelat lantai ( asumsi t = 12 cm ) = 0,12 m x 2400 kg/m3 = 288 kg/m2 # Adukan ( asumsi t = 2 cm )
= 2 x 21 kg/m2
# Keramik ( asumsi t = 0,5 cm )
= 0.005 m x 2200 kg/m3 = 11 kg/m2
# Plafond dan rangka plafond
= ( 11 + 7 ) kg/m2
= 18 kg/m2
# Mechanical & Electrical
= 25 kg/m2
= 42 kg/m2
q DL = 384 kg/m2
2) Beban Hidup ( Live Load )
# Beban hidup lantai gedung perkantoran
= 250 kg/m2
q LL
= 250 kg/m2
B. Beban Pelat Atap Tiap m2 1)
Beban Mati ( Dead Load )
# Berat sendiri pelat lantai ( asumsi t = 10 cm ) = 0,10 m x 2400 kg/m3 = 240 kg/m2 # Genangan air hujan ( 5 mm )
= 0,005 m x 1000 kg/m3 = 5 kg/m2
# Plafond dan rangka plafond
= ( 11 + 7 ) kg/m2
= 18 kg/m2
# Mechanical & Electrical
= 40 kg/m2
2)
q DL = 303 kg/m2
Beban Hidup ( Live Load )
# Beban hidup lantai gedung perkantoran
= 100 kg/m2
q LL
= 100 kg/m2
Maka : qu pelat lantai = 1,2 qDL + 1,6 qLL = 1,2 ( 384 ) + 1,6 ( 250 ) = 860,8 kg/m qu pelat atap
= 1,2 qDL + 1,6 qLL = 1,2 ( 303 ) + 1,6 ( 100 ) = 523,6 kg/m
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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C. Beban Balok
# Balok induk pelat atap ( 20/30 ) = 0,20 m x ( 0,30 m – 0,10 m ) x 2400 kg/m3 = 96 kg/m
# Balok induk pelat lantai ( 20/40 ) = 0,20 m x ( 0,40 m – 0,12 m ) x 2400 kg/m3 = 134,4 kg/m
# Balok anak pelat atap ( 20/25 ) = 0,20 m x ( 0,25 m – 0,10 m ) x 2400 kg/m3 = 72 kg/m
# Balok anak pelat lantai ( 20/35 ) = 0,20 m x ( 0,35 m – 0,12 m ) x 2400 kg/m3 = 110,4 kg/m
Selanjutnya adalah menentukan dimensi kolom berdasarkan beban‐beban di atas yang disalurkan ke kolom tersebut. 1) Kolom Lantai 7 Pelat atap ( luas = 35,4 m2 )
= 35,4 m2 x 523,6 kg/m2
= 18535.4 kg
Balok induk pelat atap ( L = 11,9 m )
= 11,9 m x 96,0 kg/m
= 1142,4 kg
Balok anak pelat atap ( L = 17,8 m )
= 17,8 m x 72,0 kg/m
= 1281,6 kg
Beban total ( Pu7 ) = 20959,4 kg
Maka :
Pu Pu 20959,4 kg = 0,25 x f' c ===> A = = 279,4 cm2 = 2 A 0,25 x f' c 0,25 (300 kg/cm ) A = b x h ===> b = h = 16,7 cm ≈ 25 cm Maka digunakan dimensi kolom 25 cm x 25 cm.
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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2) Kolom Lantai 6 Pelat lantai ( luas = 35,4 m2 )
= 35,4 m2 x 860,8 kg/m2
= 30472,3 kg
Balok Induk pelat lantai ( L = 11,9 m )
= 11,9 m x 134,4 kg/m
= 1599,4 kg
Balok anak pelat lantai ( L = 17,8 m )
= 17,8 m x 110,4 kg/m
= 1965,1 kg
Kolom lantai 7 ( h = 4,4 m )
= 4,4 m x ( 0,25 m x 0,25 m ) x 2,4 x 103 kg/m3
= 660 kg
Pu7
= 20959,4 kg
Beban total ( Pu6 ) = 55656,2 kg
Maka : Pu Pu 55656,2 kg = 0,25 x f' c ===> A = = 742,1 cm2 = 2 A 0,25 x f' c 0,25 (300 kg/cm ) A = b x h ===> b = h = 27,2 cm ≈ 35 cm Maka digunakan dimensi kolom 35 cm x 35 cm. 3) Kolom Lantai 5 Pelat lantai ( luas = 35,4 m2 )
= 35,4 m2 x 860,8 kg/m2
= 30472,3 kg
Balok lnduk pelat lantai ( L = 11,9 m )
= 11,9 m x 134,4 kg/m
= 1599,4 kg
Balok anak pelat lantai ( L = 17,8 m )
= 17,8 m x 110.4 kg/m
= 1965,1 kg
Kolom lantai 6 ( h = 4,4 m )
= 4,4 m x ( 0,35 m x 0,35 m ) x 2,4 x 103 kg/m3
= 1293,6 kg
Pu6
= 55656,2 kg
Beban total ( Pu5 ) = 90986,6 kg
Maka : Pu Pu 90986,6 kg = 0,25 x f' c ===> A = = 1213,1 cm2 = 2 A 0,25 x f' c 0,25 (300 kg/cm )
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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A = b x h ===> b = h = 34,8 cm ≈ 45 cm Maka digunakan dimensi kolom 45 cm x 45 cm. 4) Kolom Lantai 4 Pelat lantai ( luas = 35,4 m2 )
= 35,4 m2 x 860,8 kg/m2
= 30472,3 kg
Balok induk pelat lantai ( L = 11,9 m )
= 11,9 m x 134,4 kg/m
= 1599,4 kg
Balok anak pelat lantai ( L = 17,8 m )
= 17,8 m x 110,4 kg/m
= 1965,1 kg
Kolom lantai 5 ( h = 4,4 m )
= 4,4 m x ( 0,45 m x 0,45 m ) x 2,4x103 kg/m3
= 2138,4 kg
Pu5
= 90986,6 kg
Beban total ( Pu4 ) = 127161,8 kg
Maka :
Pu Pu 127161,8 kg = 0,25 x f' c ===> A = = 1695,5 cm2 = 2 A 0,25 x f' c 0,25 (300 kg/cm ) A = b x h ===> b = h = 41,2 cm ≈ 50 cm Maka digunakan dimensi kolom 50 cm x 50 cm. 5) Kolom Lantai 3 Pelat lantai ( luas = 35,4 m2 )
= 35,4 m2 x 860,8 kg/m2
= 30472,3 kg
Balok induk pelat lantai ( L = 11,9 m )
= 11,9 m x 134,4 kg/m
= 1599,4 kg
Balok anak pelat lantai ( L = 17,8 m ) = 17,8 m x 110,4 kg/m
= 1965,1 kg
= 4,4 m x ( 0,5 m x 0,5 m ) x 2,4 x103 kg/m3
Kolom lantai 4 ( h = 4,4 m )
= 2640 kg
Pu4
= 127161,8 kg
Beban total ( Pu3 ) = 163838,6 kg
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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Maka : Pu Pu 163838,6 kg = 0,25 x f' c ===> A = = 2184,5 cm2 = 2 A 0,25 x f' c 0,25 (300 kg/cm ) A = b x h ===> b = h = 46,7 cm ≈ 55 cm Maka digunakan dimensi kolom 55 cm x 55 cm. 6) Kolom Lantai 2 Pelat lantai ( luas = 35,4 m2 )
= 35,4 m2 x 860,8 kg/m2
= 30472,3 kg
Balok induk pelat lantai ( L = 11,9 m )
= 11,9 m x 134,4 kg/m
= 1599,4 kg
Balok anak pelat lantai ( L = 17,8 m )
= 17,8 m x 110,4 kg/m
= 1965,1 kg
Kolom lantai 3 ( h = 4,4 m )
= 4,4 m x ( 0,55 m x 0,55 m ) x 2,4 x 103 kg/m3
= 3194,4 kg
Pu3
= 163838,6 kg
Beban total ( Pu2 ) = 201069,8 kg
Maka :
Pu Pu 201069,8 kg = 0,25 x f' c ===> A = = 2680,9 cm2 = A 0,25 x f' c 0,25 (300 kg/cm2 ) A = b x h ===> b = h = 51,8 cm ≈ 60 cm Maka digunakan dimensi kolom 60 cm x 60 cm. 7) Kolom Lantai 1 Pelat lantai ( luas = 35,4 m2 )
= 35,4 m2 x 860,8 kg/m2
= 30472,3 kg
Balok induk pelat lantai ( L = 11,9 m )
= 11,9 m x 134,4 kg/m
= 1599,4 kg
Balok anak pelat lantai ( L = 17,8 m )
= 17,8 m x 110,4 kg/m
= 1965,1 kg
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= 4,4 m x ( 0,6 m x 0,6 m ) x 2,4 x103 kg/m3
Kolom lantai 2 ( h = 4,4 m )
= 3801,6 kg
Pu2
= 199213,8 kg
Beban total ( Pu1 ) = 237052,2 kg
Maka :
Pu Pu 237052,2 kg = 0,25 x f' c ===> A = = 3160,7 cm2 = A 0,25 x f' c 0,25 (300 kg/cm2 ) A = b x h ===> b = h = 56,2 cm ≈ 65 cm Maka digunakan dimensi kolom 65 cm x 65 cm. Tabel 1.1 Summary Preliminary Design No.
Komponen Struktur Gedung
Dimensi
1.
Pelat Lantai : - Lantai 7 ( Atap ) - Lantai 1 s/d 6
10 cm 12 cm
2.
Balok : - Balok induk pelat atap - Balok induk pelat lantai - Balok anak pelat atap - Balok anak pelat lantai
20/30 cm 20/40 cm 20/25 cm 20/35 cm
3.
Kolom : - Lantai 7 - Lantai 6 - Lantai 5 - Lantai 4 - Lantai 3 - Lantai 2 - Lantai 1
25/25 cm 35/35 cm 45/45 cm 50/50 cm 55/55 cm 60/60 cm 65/65 cm
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BAB II DENAH DAN POTONGAN STRUKTUR GEDUNG 2.1 Denah Struktur Gedung Denah struktur gedung yang direncanakan adalah sebagai berikut :
1
2
3
4
5
6
A
6,8 m
B 5 m
18,6 m
C
6,8 m
D 6 m
6 m
5 m
6 m
6 m
29 m
Gambar 2.a Sketsa denah lantai atap
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2
3
4
5
6
6,8 m
A
5 m
B
C 6,8 m
18,6 m
1
D 6 m
6 m
5 m
6 m
6 m
29 m Gambar 2.b Sketsa denah lantai 1 – 6
Gambar 2.c Denah lantai atap pada pemodelan STAAD Pro
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2.2 Potongan Struktur Gedung Potongan struktur gedung yang direncanakan terdiri dari potongan memanjang dan potongan melintang. 4,4 m 4,4 m
4,4 m 4,4 m
4,4 m 4,4 m
30,8 m
4,4 m
6 m
6 m
5 m
6 m
6 m
1
2
3
4
5
6
Gambar 2.d Potongan memanjang Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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4,4 m 4,4 m
4,4 m 4,4 m
4,4 m 4,4 m
6,8 m
30,8 m
4,4 m
A
5 m
B
6,8 m
C
D
Gambar 2.e Potongan melintang
Gambar 2.f Perspektif memanjang pada pemodelan STAAD Pro
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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Gambar 2.g Perspektif melintang pada pemodelan STAAD Pro
Gambar 2.h Tampak 3 dimensi pada pemodelan STAAD Pro
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BAB III PEMERIKSAAN TATA LETAK STRUKTUR GEDUNG 3.1 Tata Letak Struktur Gedung Tabel 3.1 Pemeriksaan tata letak struktur No
1
Persyaratan
Keterangan
A atau B M pelat = 838,1 kg m ===> OK Panjang penyaluran tulangan tumpuan = 0,25 Ln = 0,25 x 5400 mm = 1350 mm 1350
Ø10‐150
250
300
Ø10‐150
Ø10‐150
100
1350
200
5400
200
Gambar 6.d Penulangan tipikal pelat atap Tabel 6.1 Summary kebutuhan tulangan pelat lantai dan pelat atap Penulangan Pelat Lantai Bentang Bentang Ujung
Bentang Dalam
Lokasi
Kebutuhan Tulangan
As ( mm2 per m’ )
Ø10‐200 Ø10‐200 Ø10‐200 Ø10‐200 Ø10‐200
1099 1099 1099 1099 1099
Negatif eksterior Positif Negatif interior Negatif Positif
Penulangan Pelat Atap Bentang Bentang Ujung
Bentang Dalam
Lokasi
Kebutuhan Tulangan
As ( mm2 per m’ )
Ø10‐150 Ø10‐150 Ø10‐150 Ø10‐150 Ø10‐150
787,5 787,5 787,5 787,5 787,5
Negatif eksterior Positif Negatif interior Negatif Positif
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6.2 Perhitungan Penulangan Balok 6.2.1 Penulangan Balok Akibat Momen Lentur Tabel 6.2 memberikan resume beban momen di balok akibat beban kerja gravitasi dan non gravitasi yang kemudian disusul oleh beban‐beban momen sesuai dengan 12 macam kombinasi beban untuk balok rangka lantai 2 pada as A. Nilai momen tersebut diambil dari output analisis STAAD Pro seperti yang terlihat pada Gambar 6.b di bawah ini.
Gambar 6.e Nilai momen desain bentang ujung yang diambil dari output STAAD Pro
Gambar 6.f Nilai momen desain bentang dalam yang diambil dari output STAAD Pro Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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Tabel 6.2 Resume momen desain di balok rangka lantai 2 as A
No.
1
2
3
4
5 1
2
3
4
5
6
Beban
Lokasi
Negatif exterior Positif Mati ( DL ) Negatif interior Negatif exterior Positif Hidup ( LL ) Negatif interior Negatif exterior Positif Angin ( WL ) Negatif interior Negatif exterior Gempa arah sumbu X ( ELx ) Positif Negatif interior Negatif exterior Gempa arah sumbu Y ( ELy ) Positif Negatif interior Beban Kombinasi Negatif exterior Positif 1,4 DL Negatif interior Negatif exterior Positif 1,2 DL + 1,6 LL Negatif interior Negatif exterior Positif 1,2 DL + 1,0 LL + 1,6 WL Negatif interior Negatif exterior Positif 0,9 DL + 1,6 WL Negatif interior Negatif exterior Positif 1,2 DL + 1,0 LL + 1,0 ELx Negatif interior Negatif exterior Positif 1,2 DL + 1,0 LL – 1,0 Elx Negatif interior
Bentang Ujung ( kN m )
Dalam ( kN m )
60,84 41,29 61,38 14,56 14,64 14,21 0 0,34 7,62 0 0 15,88 0 0 0
62,03 40,59 60,45 14,23 14,66 14,52 0 0,43 7,68 0 0 15,88 0 0 0
85,17 57,81 85,93 96,30 72,98 96,38 72,78 63,64 100,04 39,97 36,61 67,42 71,26 64,98 103,73 86,64 63,17 86,89
86,84 56,82 84,62 97,20 72,16 95,76 74,20 62,67 99,34 41,36 35,84 66,69 72,86 63,95 102,94 87,69 62,38 86,15
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Lanjutan Tabel 6.2 Resume momen desain di balok rangka lantai 2 as A
No.
Beban
7
1,2 DL + 1,0 LL + 1,0 Ely
8
1,2 DL + 1,0 LL – 1,0 Ely
9
0,9 DL + 1,0 ELx
10 0,9 DL – 1,0 ELx
11 0,9 DL + 1,0 ELy
12 0,9 DL – 1,0 ELy
Lokasi
Bentang Ujung ( kN m )
Negatif exterior Positif Negatif interior Negatif exterior Positif Negatif interior Negatif exterior Positif Negatif interior Negatif exterior Positif Negatif interior Negatif exterior Positif Negatif interior Negatif exterior Positif Negatif interior
Dalam ( kN m )
103,87 63,40 71,98 88,49 65,21 88,83 38,45 37,96 71,11 53,83 36,14 54,27 71,06 36,37 39,36 55,68 38,19 56,21
104,47 62,78 71,17 89,64 64,35 87,95 40,02 37,11 70,28 54,85 35,54 53,50 71,63 35,94 38,52 56,80 37,51 55,30
Sebelum dilakukan penulangan baiknya dilakukan kontrol syarat‐syarat komponen beton bertulang yang merupakan bagian dari Sistem Rangka Pemikul Momen Menengah ( SRPMM ) tersebut di pasal 23.10. Untuk komponen balok berlaku pasal 23.10 ( 4 ) berikut ini :
# Kuat lentur positif komponen struktur lentur pada muka kolom ≥ 1/3 kuat lentur negatifnya pada muka tersebut.
# Baik kuat lentur negatif maupun kuat lentur positif pada setiap irisan penampang di sepanjang bentang ≥ 1/5 kuat lentur yang terbesar yang disediakan pada kedua muka‐ muka kolom di kedua ujung komponen struktur tersebut.
# Pada kedua ujung komponen struktur lentur tersebut harus dipasang sengkang sepanjang jarak dua kali tinggi komponen struktur diukur dari muka perletakan kearah tengah
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bentang. Sengkang pertama harus dipasang pada jarak ≤ 50 mm dari muka perletakan. Spasi maksimum sengkang tidak boleh melebihi : ¾ d/4 ¾ delapan kali diameter tulangan longitudinal terkecil ¾ 24 kali diameter sengkang, dan ¾ 300 mm
# Sengkang harus dipasang di sepanjang bentang balok dengan spasi tidak melebihi d/2 Perhitungan balok dengan anggapan balok yang ditinjau ( balok di lantai 2 as A ) merupakan balok T. Momen rencana yang dipakai merupakan momen terbesar dari Tabel 6.2, didapat momen negatif eksterior bentang dalam pada kombinasi pembebanan 7 ( 1,2 DL + 1,0 LL + 1,0 Ely ). MU = 104,47 kN m = 10652.98 kg m Menentukan tinggi efektif balok, d = h – 70 mm = 400 – 70 = 330 mm Lebar flens efektif, Seperempat panjang bentang balok = 1/4 x 6000 mm = 1500 mm bw + 16 hf = 200 + 16 ( 120 ) = 2120 mm jarak antar balok = 5000 mm gunakan lebar flens efektif b = 1500 mm Selanjutnya adalah menentukan balok akan berperilaku sebagai balok T murni atau persegi dengan cara menghitung momen tahanan MR dan dengan menganggap seluruh flens berada di daerah tekan. Dengan anggapan tersebut berarti dasar blok tegangan tekan berimpit dengan dasar flens tampak pada Gambar 6.1. MR = φ ( 0,85 fc’ ) b hf ( d – 1/2 hf )
= 0,80 ( 0,85 x ( 3 x 106 )) x 1,5 x 0,12 x ( 0,33 – 1/2 ( 0,12 )) = 7270,56 kg m
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b = 1500
d = 330
hf = 120
bw = 200
Gambar 6.g Lebar flens efektif balok T MR 7270,56 kg m 54734,4 kg flens menyediakan daerah tekan sangat luas sehingga blok tegangan tekan seluruhnya masih berada di dalamnya. Maka balok berlaku sebagai balok T persegi dengan lebar b = 1500 mm. Untuk balok demikian, meskipun untuk menentukan MR dianggap sebagai balok T persegi, ada kemungkinan pada waktu dilakukan pemeriksaan As maksimum, balok tersebut berperilaku sebagai balok T murni pada keadaan seimbang. Pemeriksaan ρmin, 1,4 1,4 ρ min = = = 0,0058 fy 240 As 2280,6 ρ aktual = = = 0,0349 > 0,0058 bw . d 200 x 326,50
Rasio penulangan ρaktual yang akan digunakan untuk menghitung k, As 2280,6 ρ = = = 0,0046 b . d 1500 x 326,50 Dengan ρ = 0,0046, dari Tabel A‐11 diperoleh nilai k perlu = 1,3539 Mpa = 0,1381 kg/mm2
MR = φ b d2 k = 0,80 x 1500 x 326,502 x 0,1381 = 17666124,87 kg mm = 17666,12 kg m
MR > MU ===> 17666,12 kg m > 10652.98 kg m ===> OK
Pemeriksaan daktilitas balok dengan membandingkan antara nilai Asmaks dengan Asaktual,
⎧ ⎛ 0,567 ( d ) ⎞⎫ − 1 ⎟⎬ As maks = 0,0425 hf ⎨ b + bw ⎜ hf ⎝ ⎠⎭ ⎩ ⎧ ⎛ 0,567 ( 326,50 ) ⎞⎫ = 0,0425 ( 120 ) ⎨ 1500 + 200 ⎜ − 1 ⎟⎬ 120 ⎝ ⎠⎭ ⎩ = 8203,57 mm2 Asaktual = 2280,6 mm2 1/3 kuat negatif, ini dipenuhi karena M+ = 62,78 kN > 1/3 x M‐ ( 104,47 kN ) = 34,82 kN. Di ujung bentang tengah syarat ini juga dipenuhi ===> OK. Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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6.2.2 Penulangan Geser Balok
Sebagaimana diatur dalam SK SNI T‐15‐1991‐03 Pasal 23.10 ( 3 ), kuat geser rencana balok yang memikul beban gempa tidak boleh kurang daripada :
# Jumlah gaya lintang yang timbul akibat termobilisasinya kuat lentur nominal komponen struktur pada setiap ujung bentang bersihnya dan gaya lintang akibat beban gravitasi terfaktor ( lihat Gambar 6.4 ) atau
# Gaya lintang maksimum yang diperoleh dari kombinasi beban gempa ( EL ), dimana nilai EL diambil sebesar dua kali nilai yang ditentukan dalam peraturan perencanaan tahap gempa.
Gambar 6.h Gaya lintang rencana untuk SRPMM
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Gambar 6.i Gaya lintang maksimum akibat beban gempa arah sumbu X
Dari Gambar 6.7 di atas diperoleh : Mnl = 16,30 kN m = 1662,13 kg m Mnr = 15,87 kN m = 1618,29 kg m Nilai Wu ( qu ekivalen ) dari perhitungan pada Bab V ( 5.1 ( 5.1.2 ) ) diketahui = 1205 kg/m Bentang bersih balok ( ln ) = 6 m – 0,60 m = 5,40 m Maka : M + Mnr Wu x ln + Vu = nl ln 2 1662,13 + 1618,29 1205 x 5,40 + = 5,40 2 = 3860,98 kg
Vc = ( 1/6 fc' ) bw . d = ( 1/6 300 ) ( 20 ) ( 32,65 ) = 1885,05 kg
1/2 φ Vc = 1/2 ( 0,60 ) ( 1885,05 ) = 565,51 kg Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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Karena Vu > Vc ===> 3860,98 kg > 565,51 kg, maka balok tersebut memerlukan sengkang. Menghitung Vs pada tumpuan, Vs perlu =
Vu 3860,98 ‐ Vc = ‐ 1885,05 = 3262,92 kg φ 0,75
Koefisien reduksi diambil 0,75 karena sesuai dengan SK SNI T‐15‐1991‐03 Pasal 13.5 ( 6 ( 9 ) ). Gaya geser maksimum pada balok akibat beban mati ( DL ) dapat dilihat pada 6.8 di bawah ini.
Gambar 6.j Gaya lintang maksimum akibat beban mati ( DL ) Dari Gambar 6.8 di atas diperoleh nilai V akibat beban mati sebesar 5739,88 kg.
Sesuai persyaratan Pasal 23.10 ( 3 ( 1 ) ) bahwa Vs Vc ===> 1090,66 kg > 565,51 kg, maka balok tersebut memerlukan sengkang. Menghitung Vs pada tumpuan, Vs perlu =
Vu 1090,66 = 1454,21 kg = 0,75 φ
Jika dipakai sengkang dengan dia. 10 mm Av = 54,4 mm2, maka : s =
A v . Fy . d Vs
=
54,4 x 24 x 326,5 = 293,13 mm ===> diambil s = 150 mm 1454,21
Syarat pemasangan sengkang di luar sendi plastis SK SNI T‐15‐1991‐03 Pasal 13.3 (1(1)) adalah :
# 1/2 d = 1/2 x 326,5 = 163,2 mm ===> 150 mm OK Jadi dipasang sengkang Ø 10 – 150 sebanyak :
ln ‐ 4h 5400 ‐ 4 ( 400 ) + 1 = + 1 = 26,3 ≈ 26 buah di bagian tengah balok s 150 6.2.3 Pemutusan Tulangan Balok
Perhitungan lokasi penghentian tulangan negatif di atas perletakan interior balok bentang ujung. Tulangan di atas perletakan ini ada 6 D22 dan misalkan akan dihentikan sekaligus 4 D22 setelah memenuhi SK SNI T‐15‐1991‐03 Pasal 23.10 ( 4 ( 2 ) ). Jadi desain akan ditentukan jarak penghetian 4 D22 dari muka kolom. Agar diperoleh panjang penghentian terbesar, harus dipakai kombinasi beban yang menghasilkan kuat momen lentur maksimum. Kuat momen nominal ( MR ) dari 4 D22 adalah 7270,56 kg m ( 71,30 kN m ), karena itu 4 D22 boleh dihentikan bila kuat momen nominal sudah menurun menjadi 7270,56 kg m ( 71,30 kN m ) ( lihat Gambar 6.j ).
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Jarak penampang dengan MR = 7270,56 kg m ( 71,30 kN m ) adalah :
Gambar 6.l Diagram momen untuk penghentian tulangan negatif pada perletakan interior
Dari Gambar 6.j diperoleh jarak penghentian tulangan ( x ) = 42,15 cm = 421,5 mm Sesuai SK SNI T‐15‐1991‐03 Pasal 14.10 ( 3 ) tulangan 4 D22 akan dihentikan sejauh λ = ( pilih yang lebih besar ) ld = x + d = 421,5 mm + 326,5 mm = 748 mm ===> diambil 850 mm ( menentukan ) Atau ld = x + 12 db = 421,5 mm + 12 ( 22 mm ) = 685,5 mm dari muka kolom Panjang ld = 850 mm ini harus lebih panjang dari ld yaitu panjang penyaluran ( SK SNI T‐15‐1991‐ 03 Pasal 14.10 ( 4 ) ) yang dihitung dengan rumus tersebut di SK SNI T‐15‐1991‐03 Pasal 14.2 ( 3 )
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Id 9 fy α . β . γ . λ = db 10 fc' ⎛ c + K tr ⎞ ⎜ ⎟ ⎝ db ⎠ dimana : α = 1,3 β = 1,0 γ = 0,8 λ = 1,0 K tr = 0 c = 40 + 10 + 22 / 2 = 61 mm c =
400 − 2 ( 40 + 10 ) − 22 = 19,8 mm 7 x 2
pakai c = 19,8 mm c + K tr 19,8 + 0 = = 0,9 db 22 Jadi :
Id 9 fy α . β . γ . λ 9 x 240 1,3 x 1,0 x 0,8 x 1,0 = = = 10,13 db 0,9 10 fc' ⎛ c + K tr ⎞ 10 x 30 ⎜ ⎟ ⎝ db ⎠ ld = 10,13 x 22 = 222,86 mm
Ternyata ld = 850 mm > ld = 222,86 mm jadi panjang 4 D22 dipasang sepanjang 850 mm dari muka kolom, lalu dihentikan. Perlu diamankan pula bahwa penghentian tulangan ini tidak boleh dilakukan di daerah tarik kecuali kondisi pasal 14.10 ( 5 ) dipenuhi. Dalam kasus ini, titik balik momen kira‐kira berada 1,50 m dari muka kolom > ld = 850 mm. Karena tempat penghentian berada di daerah tarik, perlu ada pengamanan. Ada dua pilihan pengamanan sebagaimana tersebut di Pasal 14.10 ( 5 ( 1 ) ) atau 14.10 ( 5 ( 2 ) ). 2 Dicoba dulu solusi kemungkinan Vu dari tulangan geser terpasang φ Vn lebih besar dari gaya 3 geser berfaktor Vu, berikut ini diperiksa ketentuan di lokasi = 850 mm
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Gambar 6.m Diagram geser maksimum pada perletakan interior
Vu = ø ( 4354,90 – 4008,9 ) = 257,25 kg 2 2 φ Vn = x 0,75 ( Vs + Vc ) 3 3 2 = x 0,75 ( 1454,21 + 1885,05 ) 3
= 1669,63 kg > Vu = 257 kg ( pada jarak 1,5 m ) 2 Karena Φ Vn > Vu maka penghentian 4 D22 boleh dilakukan pada jarak = 850 mm dari muka 3 kolom. Tulangan longitudinal yang masuk dan berhenti dalam kolom tepi yang terkekang ( Pasal 23.5 ( 1 ( 3 ) ) dan harus berupa panjang panjang penyaluran dengan kait 90o. sesuai Pasal 23.5 ( 4 ( 1 ) ) ldh diambil yang lebih besar dari :
= 8 db = 8 x 22 = 176 mm
= 150 mm, atau =
fy . db 5,4 fc'
=
240 ( 22 ) = 178,52 mm 5,4 30
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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Jadi ldh = 180 mm masuk dalam kolom dengan panjang kait 12 db = 264 mm ≈ 270 mm ( Pasal 9.1 ( 2 ) ) seperti dapat dilihat pada Gambar 6.n Untuk jarak overlapping tulangan tumpuan dengan tulangan lapangan sesuai dengan Pasal 14.12 ( 4 ) adalah : ld ≥ 1/3 As + ( nilai terbesar dari 12 db atau Ln/16 )
12 db = 12 x 22 = 264 mm
Ln/16 = 5400/16 = 337,5 mm
dipakai = 337,5 mm
ld ≥ 1/3 ( 379,94 ) + 337,5 = 464,15 mm ===> dipakai ld = 470 mm 6 D22
Ø10–80
Ø10–150
Ø10–80
600
200
2 D22
200
200
2 D22
200
6 D22
4 D22
200
600
2 D22
200
850 180
850 470
470
400
270
50
50 Ø10–80
Ø10–150
Ø10–80
800
3800
800
6000
Gambar 6.n Penulangan balok rangka lantai 2 as A
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6.3 Perhitungan Penulangan Kolom
Dibawah ini diberikan garis besar desain kolom tepi dan tengah di rangka baris 5 di bawah lantai 1. Tabel 6.3 memberikan beban‐beban desain untuk kolom interior ( interior, K 5‐C ) dan tabel 6.4 untuk kolom tepi ( eksterior, K 2‐A ). 6.3.1 Pengaruh Beban Gempa Orthogonal
Menurut pasal 5.8.2, untuk memperhitungkan arah pengaruh gempa dalam arah utama harus dianggap terjadi bersamaan dengan 30% pengaruh pembebanan arah tegak lurus (┴) pada arah utama pembebanan tadi. Tapi untuk menggunakan ketentuan ini, akan dimanfaatkan pengecualian efek orthogonal ini sesuai UBC section 1633.1 yang berbunyi : efek orthogonal tidak diperhitungkan bila beban axial oleh salah satu arah beban gempa 11655,30 kg Jadi efek orthogonal Pasal 5.8.2 tidak diterapkan dalam desain ini. 6.3.2 Penulangan Memanjang Kolom
Detail penulangan kolom pada komponen SRPMM harus memenuhi persyaratan SK SNI T‐15‐ 1991‐03 Pasal 23.10. Penulangan lentur kolom ditentukan berdasarkan besarnya nilai gaya aksial dan momen maksimum yang dipikul oleh kolom tersebut. Selanjutnya perhitungan kebutuhan tulangan lentur kolom dihitung dengan menggunakan software PCA COL.
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Di bawah ini merupakan summary dari gaya aksial dan momen maksimum kolom yang diperoleh dari output analisis dengan menggunakan software STAAD Pro. Tabel 6.3 Summary beban Pu dan Mu pada kolom K 5‐C ( interior ) lantai 1 No.
1 2 3 4 5 No. 1 2 3 4 5 6 7 8 9 10 11 12
Jenis Beban
Mati ( DL ) Hidup ( LL ) Angin ( WL ) Gempa arah sumbu X ( ELx ) Gempa arah sumbu Y ( ELy ) Beban Kombinasi 1,4 DL 1,2 DL + 1,6 LL 1,2 DL + 1,0 LL + 1,6 WL 0,9 DL + 1,6 WL 1,2 DL + 1,0 LL + 1,0 ELx 1,2 DL + 1,0 LL – 1,0 Elx 1,2 DL + 1,0 LL + 1,0 Ely 1,2 DL + 1,0 LL – 1,0 Ely 0,9 DL + 1,0 ELx 0,9 DL – 1,0 ELx 0,9 DL + 1,0 ELy 0,9 DL – 1,0 ELy
Aksial ( kg )
Momen ( kN m )
17,47 19,75 860,43 1536,18 0,127
14,10 5,61 63,02 1,73 78,30
24,45 10,64 1375,47 1360,96 1534,98 1,335 1537,39 1,082 1520,46 15,85 1551,90 15,59
19,74 23,12 80,92 88,15 21,65 58,38 20,12 98,22 10,24 65,61 10,97 90,99
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Tabel 6.4 Summary beban Pu dan Mu pada kolom K 2‐A ( eksterior ) lantai 1 No.
1 2 3 4 5 No. 1 2 3 4 5 6 7 8 9 10 11 12
Jenis Beban
Mati ( DL ) Hidup ( LL ) Angin ( WL ) Gempa arah sumbu X ( ELx ) Gempa arah sumbu Y ( ELy ) Beban Kombinasi 1,4 DL 1,2 DL + 1,6 LL 1,2 DL + 1,0 LL + 1,6 WL 0,9 DL + 1,6 WL 1,2 DL + 1,0 LL + 1,0 ELx 1,2 DL + 1,0 LL – 1,0 Elx 1,2 DL + 1,0 LL + 1,0 Ely 1,2 DL + 1,0 LL – 1,0 Ely 0,9 DL + 1,0 ELx 0,9 DL – 1,0 ELx 0,9 DL + 1,0 ELy 0,9 DL – 1,0 ELy
Aksial ( kg )
Momen ( kN m )
742,91 310,04 790,93 1397,73 30,22
27,63 1,658 59,48 1,511 73,48
1040,07 1387,55 2467,02 1934,10 2599,26 1171,31 196,20 1231,75 2066,35 638,40 729,11 698,84
38,69 35,81 68,09 75,71 36,33 54,30 33,31 100,56 26,38 54,02 23,36 92,94
Berdasarkan kombinasi beban di Tabel 6.3, kolom tengah lantai 1 ( K 5‐C ) cukup diberi tulangan sebanyak 1,47% atau 16 D22. Seperti terlihat Gambar 6.f, sebuah diagram interaksi aksial‐momen yang dibuat dengan program PCACOL. Dengan cara sama diperoleh tulangan 16 D22 atau 1,47% untuk kolom tepi lantai 1 ( K 2‐A ), diagram interaksi kolom ini disajikan di Gambar 6.g. Prosentase tulangan kedua kolom ini sesuai syarat Pasal 23.4 ( 3 ( 1 ) ) yaitu harus di antara 1% ‐ 6%, telah dipenuhi. Disamping itu kapasitas kolom terhadap kombinasi gaya aksial dan momen maksimum pun memenuhi persyaratan, hal ini ditunjukkan dengan letak titik yang menunjukkan gaya aksial dan momen maksimum yang masih berada jauh di dalam garis lengkungan yang menunjukkan gaya aksial dan momen yang diijinkan.
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Gambar 6.o Diagram interaksi kuat rencana kolom tengah pada lantai 1 ( kolom K 5‐C )
Gambar 6.p Diagram interaksi kuat rencana kolom tepi pada lantai 1 ( kolom K 2‐A )
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6.3.3 Pengekangan Kolom
Memenuhi Pasal 23.10, ujung‐ujung kolom sepanjang L0 harus dikekang dengan spasi sesuai pasal 23.10 ( 5 ( 1 ) ) oleh tulangan transversal. Panjang L0 tidak boleh kurang daripada nilai terbesar berikut ini : L0 ≥ 1/6 hn = 1/6 ( 4400 mm – 400 mm ) = 670 mm
≥ dimensi terbesar penampang kolom = 650 mm L0 = dipakai 700 mm
≥ 500 mm
Dengan spasi maksimum S0 tidak boleh melebihi :
S0 ≤ 8 x Ø tulangan longitudinal terkecil
= 8 x 22 mm = 176 mm
≤ 24 x Ø sengkang ikat = 24 x 10 = 240 mm
≤ 1/2 x dimensi penampang terkecil komponen struktur S0 = dipakai 100 mm
= 1/2 x 200 mm = 100 mm
≤ 300
Ash sesuai pasal 23.4 ( 4 ( 1 ) ) diperoleh dari nilai lebih besar dari hasil 2 rumus berikut ini: Ash = 0,3 ( s hc fc’ / fyh ) ( Ag / Ach ‐ 1 ) Ash = 0,09 ( s hc fc’ / fyh ) Dengan asumsi s = 100 mm, fyh = 400 MPa, dan selimut beton 40 mm dan Ø s = 10 mm Ash = 0,3 [ 100 x ( 650 – 2 x 40 – 20 ) x 30 / 400 ] [ ( 6502 / ( 650 – 2 x 40 )2 – 1 ]
= 371,74 mm2 Ash = 0,09 [ 100 x ( 650 – 2 x 40 – 20 ) x 30 / 400 ]
= 371,25 mm2
Untuk memenuhi pasal 23.4 ( 4 ( 3 ) ) dipasang Ash 4 Ø 12 = 452,16 mm2 > 371,74 mm2. Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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6.3.4 Penulangan Transversal untuk Beban Geser
Gaya geser rencana Vu, untuk menentukan kebutuhan tulangan geser kolom menurut Pasal 23.10 ( 3 ) harus ditentukan dari kuat momen maksimum yang terjadi pada kedua ujungnya, seperti terlihat pada Gambar 6.q.
Gambar 6.q Gaya lintang rencana untuk SRPMM
Dari hasil analisa dengan menggunakan STAAD Pro untuk kolom interior K 5‐C diperoleh : Mnt = 10015,75 kg m Mnb = 1062,24 kg m Tinggi antar lantai 4,40 m dengan tinggi balok induk 40 cm, maka tinggi bersih kolom ( hn ) :
hn = 4,40 – 0,40 = 4 m
Maka :
M + Mnb 10015,75 + 1062,24 Vu = nt = = 2769,50 kg hn 4 Kemudian mengingat beban aksial terfaktor kolom tengah ini ( min. 0,127 kg ) lebih kecil ( lihat Tabel 6.3 ) dari Ag . fc’ / 20 = 6502 x 3 / 20 = 63375 kg. Maka Vc diambil Pasal 13.3 ( 1 ( 1 ) ) Vc =
fc' 3 . b w . d = . 650 . 587 = 110144 kg 6 6
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Berdasarkan Av 4 Ø 12 = 452,4 mm2 dan s terpasang = 100 mm ( lihat tulangan pengekangan ) Vs =
A s fy d s
=
452,4 x 40 x 587 = 106223,52 kg 100
Maka : φ ( Vs + Vc ) = 0,65 x ( 106223,52 + 110144 ) = 140638,89 kg > Vu = 2769,50 kg ===> OK Ini berarti Ash terpasang berdasarkan persyaratan ( Pasal 23.4 ( 4 ( 1 ) ) di L0 sudah cukup untuk menahan geser. Sisa panjang kolom tetap harus tulangan transversal dengan
s ≤ 6 db tulangan memanjang = 6 x 22 = 132 mm atau
≤ 150 mm
Kebutuhan penulangan kolom tepi diperiksa dengan cara yang sama. 6.3.5 Sambungan Lewatan Tulangan Vertikal Kolom
Sesuai Pasal 14.2 ( 3 ) panjang sambungan lewatan tulangan D22 dari kolom tengah harus dihitung dengan rumus : ld 9 fy α β γ λ = db 10 fc' ⎛ c + K tr ⎞ ⎜⎜ ⎟⎟ ⎝ db ⎠
Dimana :
α = 1,0 β = 1,0 c = 40 + 12 + 22/2 = 63 mm γ = 1,0 λ = 1,0 Ktr = 0 c + K tr 63 = = 2,86 ===> diambil 2,5 ( maksimum ) db 22
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Jadi : ld 9 x 240 1,0 x 1,0 x 1,0 x 1,0 9 fy α β γ λ = = 15,8 = 2,5 db 10 30 10 fc' ⎛ c + K tr ⎞ ⎜⎜ ⎟⎟ d ⎝ b ⎠ ld = 15,8 x 22 = 347,6 mm Sesuai Pasal 23.4 ( 3 ( 2 ) ) sambungan lewatan harus diletakkan di tengah panjang kolom dan harus dihitung sebagai sambungan tarik. Dari Gambar 6.o dapat diperkirakan bahwa akibat kombinasi beban berfaktor dengan beban gempa tegangan tulangan yang terjadi fs > 0,5 fy , jadi sambungan lewatan ini termasuk kelas B ( Pasal 14.17 ( 2 ( 3 ) ) yang panjangnya harus 1,3 ld = 451,88 ≈ 460 mm. Detail penulangan kolom tengah dapat dilihat di Gambar 6.r.
650 650
400
4 Ø 12 – 150
16 D22 POTONGAN A
4 Ø 12 – 150
4 Ø 12 – 100
460
1070
700 1070
700
A
4 Ø 12 – 100 4 Ø 12 – 100
400
4000
650
φ 12
Gambar 6.r Detail penulangan kolom tengah ( K 5‐C ) Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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6.4 Desain Hubungan Balok ‐ Kolom ( HBK ) 6.4.1 Hubungan Balok ‐ Kolom Tengah
Pasal 23.5 menentukan tulangan transversal berbentuk hoop seperti diatur Pasal 23.4 ( 4 ) harus dipasang dalam HBK, kecuali bila HBK tersebut dikekang oleh komponen struktur sesuai Pasal 23.5 ( 2 ( 2 ) ). Di HBK yang keempat mukanya terdapat balok‐balok dengan lebar setidak‐tidaknya selebar 3/4 lebar kolom, harus dipasang tulangan transversal sedikitnya separuh yang disyaratkan oleh Pasal 23.4 ( 4 ( 1 ) ) dan s ≤ 0,25 h atau 150 mm. Namun contoh SPRM ini memiliki lebar balok 400 mm Vx ‐x ===> OK
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6.4.2 Hubungan Balok ‐ Kolom Tepi
Kuat Geser HBK tepi yang diperiksa adalah arah X di kolom luar, baris ke‐1 lantai 1. HBK ini hanya dikekang oleh 3 balok sehingga sesuai Pasal 23.5 ( 2 ( 2 ) ), tulangan transversal di ujung kolom perlu dipasang dalam HBK. Gambar 6.v menunjukan analisis momen kolom Mn dari gaya geser ujung kolom Vh, Kuat tarik tulangan atas balok T1 dan kuat tekan C1 yang = T1. Dengan cara yang sama seperti di HBK tengah diperoleh : Mpr 104,47 Mu = = = 52,23 kN m = 5325,98 kg m 2 2 M 2 x 52,23 Vh = u = = 52,23 kN = 5325,98 kg hin 2 42
Geser di potongan x‐x Vx‐x = T1 – Vh = 683,88 – 52,23 = 631,65 kN = 64410,37 kg Kuat geser nominal sesuai Pasal 23.5 ( 3 ( 1 ) ) φVc = 0,75 x 1,7 x A j x fc' = 0,75 x 1,7 x ( 650 x 650 ) x 30 = 2950,51 kN > Vx ‐x ===> OK
52,23 kN m Vh = 52,23 kN
6 D22
T1 = 683,88 kN
x
x
104,47 kN m C1 = T1
2 D22
Vh = 52,23 kN 52,23 kN m
Gambar 6.v Analisa geser dari HBK kolom tepi ( K 2‐A ) Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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BAB VII PERHITUNGAN FONDASI 7.1 Data Hasil Uji Tanah Sebelum melakukan perhitungan fondasi maka terlebih dahulu perlu diketahui data‐data / karakteristik tanah di mana struktur fondasi bangunan didirikan. Data‐data tanah tersebut diperoleh dari hasil uji lapangan dan laboratorium. 7.1.1 Hasil Uji Tanah di Lapangan Dari hasil soil test dengan menggunakan CPT ( Cone Penetration Test ) atau sondir dan hand boring, diketahui properties tanah sebagai berikut :
# Lapisan permukaan, terdiri dari lempung kelanauan, konsistensi stiff, plastisitas tinggi, kohesi kuat, berwarna coklat. Tercatat nilai perlawanan konus rata‐rata ≥ 20 kg/cm2.
# Lapisan permukaan, terdiri dari lempung kelanauan, konsistensi stiff, plastisitas tinggi, kohesi kuat, berwarna coklat kemerahan. Lapisan ini mempunyai nilai perlawanan konus rata‐rata ≥ 20 kg/cm2.
# Lapisan tanah terdiri dari lempung kelanauan, konsistensi medium stiff to stiff, plastisitas tinggi, kohesi kuat, berwarna merah kekuningan. Lapisan ini mempunyai nilai perlawanan konus rata‐rata ≥ 9 kg/cm2.
# Lapisan tanah terdiri dari lempung kelanauan, konsistensi very stiff, plastisitas tinggi, kohesi kuat. Lapisan ini mempunyai nilai perlawanan konus rata‐rata ≥ 30 kg/cm2. Lapisan ini langsung bertumpu pada lapisan tanah keras di kedalaman 11,40 m.
# Lapisan tanah keras dijumpai pada kedalaman 11,40 m. # Muka air tanah tidak dijumpai pada proses sondir dan hand boring. Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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Dari hasil uji lapangan dan laboratorium maka fondasi yang sesuai dengan kondisi dan karakteristik tanah tersebut adalah fondasi dalam dengan menggunakan bored pile hingga kedalaman tanah keras ( 12 m dari permukaan tanah ). Dari data sondir selengkapnya ( terlampir ) nilai daya dukung ( qc ) tanah yang digunakan adalah :
# Daya dukung di sepanjang bored pile / skin resistance ( qca ) = 110 t/m2 # Daya dukung di ujung bored pile / end bearing resistance ( qcb ) = 250 t/m2 7.1.2 Hasil Uji Laboratorium Dari hasil pengujian tanah di loboratorium, diketahui properties tanah sebagai berikut :
# Wet density ( γm )
= 1,619 t/m3
# Water content ( wn )
= 35,379 %
# Specific gravity ( Gs )
= 2,569
# Void ratio ( e0 )
= 1,148
# Degree of saturation ( Sr ) = 79,160 % # Liquid limit ( LL )
= 68,919 %
# Plastic limit ( PL )
= 30,278 %
# Plasticity index ( IP )
= 38,641
# Angle of internal friction ( φ ) = 8,061° # Cohesion ( c )
# Compression index ( Cc )
= 0,330 kg/cm2 = 0,251
# Coeff. Of consolidation ( cv ) = 4,9 x 10‐5 cm2/det Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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7.2 Perhitungan Fondasi 7.2.1 Preliminary Design Fondasi Preliminary Design fondasi dimulai dari penentuan dimensi pedestal. Perhitungannya berdasarkan asumsi sebagai kolom pendek yang menerima beban maksimum dari kolom struktur. Direncanakan dimensi pedestal 70 cm x 70 cm ( Ag = 4900 cm2 ). Ag (trial) ≥
Pu ; 0,40 ( f' c + fy ρ t )
dimana ρ t = 0,015 Pu = beban aksial kolom lantai 1 = 237052,2 kg 237052,2 Ag (trial) ≥ = 1763,8 cm 2 0,40 ( 300 + 2400 x 0,015 )
4900 cm 2 > 1763,8 cm 2 ===> OK
Direncanakan tinggi pedestal dari muka pile cap = 150 cm Cek kelangsingan pedestal : ⎛M klu ≤ 34 ‐ 12 ⎜⎜ 1 r ⎝ M2
⎞ ⎟⎟ ⎠
⎛M klu 1,0 x 150 cm = = 7,14 ; 34 ‐ 12 ⎜⎜ 1 r 0,3 x 70 cm ⎝ M2
⎞ ⎟⎟ = 34 ‐ 12 (+ 0,5 ) = 28 ⎠
Dikarenakan 7,14 279,961 ton ===> OK Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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7.2.2.2 Daya Dukung Fondasi Terhadap Gaya Tekan ( Compressive ) Fz
Fy
Fx
Gambar 7.e Reaksi perletakan akibat beban kolom terhadap fondasi ( compressive ) Daya dukung fondasi terhadap gaya tekan ( compressive ) : Qu
= Nc . cb . π . r2 + ca . 2 π . r z
Qu tot
= n tot . Qu . Eff
Q all
=
Eff
= 1 − tan −1
cb
=
Qu tot SF d ⎡ (n − 1)m + (m − 1)n ⎤ ⎥⎦ s ⎢⎣ 90mn
qcb qca ; ca = α . 15 15
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dimana :
Nc
= faktor daya dukung = 8,70
Qu = daya dukung maksimum bored pile terhadap gaya tekan ( compressive ) r
= jari‐jari bored pile = 30 cm
ca
= adhesi tanah di sepanjang bored pile
cb
= kohesi undrained di ujung bored pile
z
= kedalaman bored pile = 9,8 m
Qall = daya dukung ijin bored pile terhadap gaya tekan ( compressive ) SF
= faktor keamanan terhadap compressive = 3
m
= jumlah baris = 3
n
= jumlah bored pile dalam satu baris = 3
n tot = jumlah total bored pile = n x m = 3 x 3 = 9 d
= diameter bored pile = 60 cm
s
= jarak center to center bored pile = 150 cm
Eff
= faktor efisiensi
qcb = tahanan tanah dari hasil uji sondir pada ujung bored pile α
= factor adhesi = 0,70
60 Eff = 1 − tan −1 150
⎡ (3 − 1)3 + (3 − 1)3 ⎤ ⎢ ⎥ 90 (3 x 3) ⎣ ⎦
= 0,677
ca
110 = 5,13 t/m2 = 0,70 x 15
cb
=
250 = 16,67 t/m2 15
Qu = ( 8,70 x 16,67 x π x 0,302 ) + ( 5,13 x 2 x π x 0,30 x 9,8 ) = 135,70 ton Qu tot Qall =
= 9 x 135,70 x 0,677 = 826,82 ton
Qu tot 826,82 = = 275,61 ton > 237,051 ton ===> OK SF 3
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7.2.2.3 Daya Dukung Fondasi Terhadap Gaya Geser ( Shear ) H =
k .d . a β
β
4
=
k.d 4 .E.I
Hall = n tot . H . Eff dimana : H = kapasitas daya dukung lateral bored pile yang diijinkan k
= koefisian lateral subgrade reaction = 0,5 kg/cm3
d
= diameter bored pile = 30 cm
a
= displacement normal bored pile = 1 cm
Eff = faktor efisiensi n tot = jumlah total bored pile = 9 E
= modulus elastisitas bored pile = 100.000 kg/cm2
I
= momen inersia penampang melintang bored pile
= ( π / 64 ) d4 = 39.741 cm4
β
=
H =
4
0,5 x 30 = 0,00554 cm‐1 4 x 100.000 x39.741
0.001 x 0,5 x 30 x 1,0 = 2,706 ton 0,00554
60 ⎡ (3 − 1)3 + (3 − 1)3 ⎤ Eff = 1 − tan −1 ⎥ 150 ⎢⎣ 90 (3 x 3) ⎦
= 0,677
Htot = 9 x 2,706 x 0,677 = 10,03 ton > 7,306 ton ===> OK
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7.2.3 Punching Shear pada Pile Cap Dari perhitungan pembebanan diketahui bahwa beban maksimum yang dipikul oleh kolom struktural P = 237051 kg. Beban tersebut kemudian disalurkan ke pedestal lalu ke pile cap, untuk itu perlu dicek apakah pile cap tersebut mampu memikul beban tersebut atau tidak. Kemungkinan yang paling dominan akan kegagalan yang terjadi pada pile cap adalah kegagalan terhadap geser di sekeliling pedestal yang menumpu di atas pile cap tersebut yang biasa disebut dengan punching shear. Di bawah ini sketsa punching shear pada pile cap akibat gaya dari pedestal untuk kerja dua arah.
W = 5000
d/2
Pedestal
Daerah Kritis d/2
Pile Cap
Bored Pile 700
Pedestal Pile Cap
d = 800
Punching Shear
Bored Pile
Gambar 7.f Punching shear dua arah pada pile cap akibat gaya pedestal
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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Tekanan tanah terfaktor yang diakibatkan oleh beban P : Pu = P/A
= 237051 kg / ( 5 x 5 ) = 9482,04 kg/m2
Untuk arah kerja dua arah ( two way shear ) Lebar daerah kritis ( B ) = lebar pedestal + (( d/2 ) x 2 )
= 700 + (( 800/2 ) x 2 ) = 1500 mm
Gaya geser total terfaktor yang bekerja pada daerah kritis adalah : Vu = Pu ( W2 – B2 )
= 9482,04 x ( 52 – 1,52 ) = 215716,41 kg
Kuat geser beton adalah :
(
)
⎛ 2⎞ Vc = ⎜⎜ 1 + ⎟⎟ 2 fc' b 0 d βc ⎠ ⎝
Tetapi nilai tersebut tidak boleh lebih besar dari : Vc = 4 f' c b 0 d
Karena βc = 1 ===> ( pebandingan lebar pedestal = 0,70 / 0,70 ), kuat geser maksimum akan menjadi : Vc = 4 f' c b 0 d b 0 = 4 B = 4 ( 150 cm ) = 600 cm Vc = 4 300 x 600 x 80 = 3325537,55 kg
φVc = 0,75 ( 3325537,55 ) = 2494153,16 kg φVc > Vu ===> OK
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Untuk arah kerja satu arah ( one way shear )
1350
Pedestal
W = 5000
Daerah Kritis
d
d
Pile Cap
Bored Pile
700
Pedestal Pile Cap d = 800
Punching Shear 45°
45°
Bored Pile
Gambar 7.g Punching shear satu arah pada pile cap akibat gaya pedestal Gaya geser total terfaktor yang bekerja pada daerah kritis adalah : Vu = Pu WG
= 9482,04 x ( 5 ) ( 1,35 ) = 64003,77 kg
Kuat geser beton adalah : ⎛1 ⎞ ⎛1 ⎞ Vc = ⎜ fc' ⎟ bwd = ⎜ 300 ⎟ x 500 x 80 = 115470,54 kg ⎝6 ⎠ ⎝6 ⎠ Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
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φVn = φVc = 0,75 ( 115470,54 ) = 86602,90 kg Vu OK Setelah dilakukan pengecekan terhadap kapasitas/daya dukung fondasi di atas, baik terhadap gaya tekan, gaya tarik maupun punching shear, maka dimensi fondasi yang digunakan adalah seperti yang tertera pada tabel di bawah ini. Tabel 7.1 Summary dimensi fondasi
No. Komponen Fondasi
Dimensi L ( cm )
B ( cm )
H ( cm )
Jumlah & Ø ( cm )
Spasi ( cm )
1
Pedestal
70
70
150
‐
‐
2
Pile cap
400
400
80
‐
‐
3
Bored pile
‐
‐
980
9 Ø 60
150
4
Tie beam
‐
30
45
‐
‐
Di bawah ini merupakan layout dan geometri fondasi secara keseluruhan yang dimodelkan dengan menggunakan software GS AFES.
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
VII ‐ 17
Gambar 7.h Layout fondasi Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
VII ‐ 18
7.2.4 Perhitungan Tulangan Fondasi Perhitungan tulangan dibagi ke dalam 4 kelompok, yakni perhitungan tulangan pile cap , tulangan pedestal, tulangan bored pile dan tulangan tie beam. 7.2.4.1 Perhitungan Tulangan Pile Cap e= 1650
1
Pedestal
W = 5000
4 Daerah Kritis
700
7
A
Pile Cap
Bored Pile
700
Pedestal
Pile Cap
d = 800
Bored Pile
Q1 = 27,462 ton Q4 = 27,020 ton Q7 = 26,577 ton
Potongan A Gambar 7.i Analisis momen fondasi bored pile
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
VII ‐ 19
Momen rencana untuk perhitungan tulangan adalah : Mu = Q1 ( e ) + Q4 ( e ) + Q7 ( e )
= 27,462 ( 1,65 ) + 27,020 ( 1,65 ) + 26,577 ( 1,65 )
= 133,75 ton m
kperlu =
Mu 133,75 = = 52,25 ton/m 2 = 0,5124 MPa 2 φbd 0,80 ( 5 ) ( 0,80 )2
Dengan menggunakan Tabel A‐11 didapat ρ perlu 2 baris = 66 Maka luas tulangan yang ada adalah :
As ada = n x As = 66 x 379,94 mm2 = 25076,04 mm2 > 23200 mm2 ===> OK
Dengan demikian tulangan pile cap dipakai D22‐150 mm, dengan tulangan rangkap.
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
VII ‐ 20
Gambar 7.j Penulangan pile cap Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
VII ‐ 21
7.2.4.2 Perhitungan Tulangan Pedestal Pedestal direncanakan dengan dimensi sesuai dengan yang tertera pada Sub Bab 6.3, dimana : P x L x T = 0,70 m x 0,70 m x 1,50 m Gaya yang dipikul oleh pedestal seperti yang tertera pada Sub Bab 6.3, dimana : Pu = 237,052 ton Mu = 6,126 ton m Eksentrisitas yang terjadi : Mu 6,126 e = = = 0,026 m Pu 237,052
Dengan ukuran pedestal 700 mm x 700 mm, direncanakan pedestal menggunakan jumlah tulangan 2 %. Maka : ρ = ρ' =
As = 0,02 bd
dengan d’ = selimut beton + dia. sengkang + 1/2 dia. tulangan pokok pedestal
As = As’ = 0,02 ( 700 ) ( 639 ) = 8946 mm2
= 40 + 10 + ( 22/2 ) = 61 mm
Dicoba dengan 5 D22 pada masing‐masing sisi pedestal ( As = 1899,7 mm2, Astotal = 9498,5 mm2 )
ρ =
1899,7 = 0,0042 700 ( 639 )
Pemeriksaan Pu terhadap beban Pnb :
d = 700 ‐ 61 = 639 cb =
600 600 ( 639 ) ( d ) = = 456,43 mm 600 + fy 600 + 240
β1 = 0,85
ab = β1cb = 0,85 ( 456,43 ) = 387,96 mm
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
VII ‐ 22
εs' =
0,003 ( cb ‐ d' ) 0,003 ( 456,43 ‐ 61 ) = = 0,0026 cb 456,43
fs' = Es εs' = 200000 ( 0,0026 ) = 520 Mpa φPnb = 0,65 ( 0,85 fc' ab b + As' fs' ‐ As fy ) = 0,65 ( 0,85 ( 30 ) ( 387,06 ) ( 700 ) + 1899,7 ( 520 ) ‐ 1899,7 ( 240 ) )
= 0,65 ( 6909021 + 987844 ‐ 455928 ) = 4836609 N = 493,197 ton
Memeriksa kekuatan penampang, Pn =
=
As' fy e + 0,50 ( d ‐ d' )
+
b h fc' 3 h e + 1,18 d2
1899,7 ( 240 ) 700 ( 700 ) ( 30 ) + 26 3 ( 700 ) ( 26 ) + 0,50 + 1,18 ( 639 ‐ 61 ) ( 639 )2
= 10144398 + 11189613,27 = 21334011,27 N = 2359,013 ton φPn = 0,65 ( 2359,013 ) = 1533,36 ton > Pu = 237,052 ton ===> OK
Dengan demikian pedestal menggunakan tulangan 25 D22. Panjang penyaluran dasar tulangan pedestal : l db =
db fy 4 fc'
=
22 ( 240 ) = 241 mm ===> diambil 250 mm 4 30
Merencanakan sengkang pedestal, Dengan menggunakan batang tulangan Ø10, jarak spasi sengkang ditentukan nilai terkecil dari ketentuan‐ketentuan berikut ini : 16 x diameter tulangan pokok pedestal ( D22 ) = 352 mm 48 x diameter tulangan sengkang ( Ø10 ) = 480 mm Dimensi terkecil pedestal = 700 mm Maka digunakan batang tulangan sengkang pedestal Ø10 – 300 mm.
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
VII ‐ 23
Gambar 7.k Penulangan pedestal Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
VII ‐ 24
7.2.4.3 Perhitungan Tulangan Bored Pile
Direncanakan diameter bored pile seperti tertera pada Sub Bab 6.3 yakni Ø 60 cm ( Ag = 2826 cm2 ). Gaya aksial yang diterima oleh bored pile ( Pu ) = 31,348 ton, dengan perkiraan presentase luas tulangan ( ρg ) = 0,03. Luas kotor penampang bored pile yang diperlukan adalah : Ag perlu =
Pu 0,85φ { 0,85 fc' ( 1 ‐ ρg ) + fy ρg }
=
31348 0,85 ( 0,70 ) { 0,85 ( 300 ) ( 1 ‐ 0,03 ) + 2400 ( 0,03 ) }
Ag perlu = 190 cm
2
Ag aktual = 2826 cm 2
Luas tulangan yang diperlukan : Ast perlu =
Pu 0,80φ ( fy )
=
31348 0,80 ( 0,70 ) ( 2400 )
Ast perlu = 23,32 cm 2
Digunakan tulangan pokok bored pile 8 D22 ( Ast actual = 30,39 cm2 ) Merencanakan tulangan sengkang spiral Digunakan tulangan spriral Ø12 ( Asp = 113,04 mm2 ) dengan selimut beton 7 cm. Luas bersih inti beton bored pile setelah dikurangi selimut beton adalah : Dc = 600 – ( 2 x 70 ) = 460 mm ===> Ac = 1661,06 cm2 ⎛ Ag ⎞ fc' ρs ( min ) = 0,45 ⎜ − 1 ⎟ ⎝ Ac ⎠ fy ⎛ 2826 ⎞ 300 = 0,45 ⎜ − 1⎟ = 0,039 ⎝ 1661,06 ⎠ 2400
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
VII ‐ 25
Spasi maksimum sengkang spiral : s maks = =
4 Asp ( Dc ‐ selimut ) Dc 2 ρs ( min )
4 ( 113,04 ) ( 460 ‐ 70 ) = 21,37 mm ===> dipakai spasi 20 mm 2 460 ( 0,039 )
Maka dipakai tulangan bored pile 8 D22 dengan sengkang spiral Ø12‐20. 7.2.4.4 Perhitungan Tulangan Tie Beam
Dari output perhitungan dengan menggunakan Software GS AFES diperoleh Mu = 1,66 ton m, Vu = 1,23 ton. Direncanakan tulangan pokok tie beam menggunakan 3 D16 ( tulangan tekan ), 3 D16 ( tulangan tarik ) dan 2 D16 ( tulangan samping ). Sedangkan untuk tulangan sengkangnya digunakan Ø10 – 200 ( Av = 157 mm2 ) Dimensi tie beam direncanakan 30 cm x 45 cm dengan tebal selimut beton 50 mm. Cek kapasitas penampang dengan tulangan rencana terhadap lentur : As ada = As ‐ 8 D16 = 16,08 cm 2 φMn = 0,85 As ada fy ( d ‐ a/2 ) a =
As ada fy 81,18 ( 2400 ) = 25,47 cm = ( 0,85 fc' ) b ( 0,85 ( 300 ) ) 30
φMn = 0,80 ( 16,08 ) ( 2400 ) ( 40 ‐ 25,47/2 ) = 841768,70 kg cm = 7,42 ton m Mu OK
Cek kapasitas penampang dengan tulangan rencana terhadap geser :
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
VII ‐ 26
φVc = φ 2 fc' bw d = 0,60 x 2 300 ( 30 ) ( 40 ) = 24941,53 kg φVs = 0,60 = 0,60
Av fy d s
1,57 ( 2400 ) ( 40 ) = 4521,6 kg 20
φVn = φVc + φVs = 24941,53 + 4521,6 = 29463,13 kg = 29,463 ton Vu OK
Maka dimensi tie beam 30 cm x 45 cm dengan tulangan pokok 8 D16 dan sengkang Ø10 – 200 memenuhi syarat untuk dipakai.
Gambar 7.l Penulangan tie beam
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
VII ‐ 27
Tabel 7.2 Summary tulangan fondasi
No. Komponen Fondasi
Tulangan Tulangan Pokok
Tulangan Geser
1
Pedestal
25 D22
Ø10 – 300
2
Pile cap
D22 – 150 ( rangkap )
‐
3
Bored pile
8 D22
Ø12 – 20 ( spiral )
4
Tie beam
8 D16
Ø10 – 200
Ø10 – 300
3 D16
25 D22
2 D16
B
700
D22 – 150
A
A
B
Ø10 – 200 700
Ø10 – 300 25 D22
8 D22
Potongan A ‐ A
Ø12 – 20
300 Ø10 – 200
C
C
450
8 D16
Potongan B ‐ B
Ø10 – 20
8 D22
600
Potongan C ‐ C
Gambar 7.m Penulangan fondasi
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
VII ‐ 28
BAB VIII PERHITUNGAN TANGGA 8.1 Perencanaan Geometri Tangga Sesuai dengan persyaratan untuk penentuan geometri tangga yang ideal adalah harus memenuhi kriteria berikut ini :
# Jumlah tanjakan dihitung dengan membagi antara tinggi 2 lantai dengan tinggi / tanjakan ( t ).
# Lebar injakan ( i ) + 2 x tinggi tanjakan ( t ) = minimum 57 s/d maksimum 66 cm. 57 cm ≤ ( 2 t + i ) ≤ 66 cm Diketahui data ukuran ruang tangga sebagai berikut : Tinggi antar lantai
= 4,40 m
Panjang ruang tangga = 3,75 m Lebar ruang tangga
= 4,85 m
Direncanakan geometri tangga dengan data sebagai berikut : Lebar injakan ( i )
= 25 cm
Lebar bordes
= 1,5 m
Panjang bordes
= 4,85 m
Lebar anak tangga
= 2,175 m
Tebal pelat tangga dan bordes = 15 cm Maka : Sudut kemiringan tangga ( α ) = arc tg (( 4,40/2 ) / 3,75 ) = 30,40° Jumlah injakan = 375 cm : 25 cm = 15 Tinggi tanjakan ( t ) = tg 30,40° x 25 cm = 14,67 ≈ 15 cm ( 2 x 15 cm ) + 25 cm = 55 cm ===> 57 cm > 55 tangga landai
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
VIII ‐ 1
1500
250 150
1500 4400
2200
150
1500
6800
3750
1500
2175
500
4850
2175
UP
3750
1500
6800
Gambar 8.a Geometri tangga
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
VIII ‐ 2
Gambar 8.b Geometri tangga pada pemodelan SAP 2000 8.2 Pembebanan Tangga A. Beban Mati ( Dead Load )
# Berat sendiri pelat tangga ( asumsi t = 15 cm ) = 0,15 m x 2400 kg/m3 = 360 kg/m2 # Adukan ( asumsi t = 2 cm )
= 2 x 21 kg/m2
# Keramik ( asumsi t = 0,5 cm )
= 0.005 m x 2200 kg/m3 = 11 kg/m2
= 42 kg/m2
q DL = 413 kg/m2
B. Beban Hidup ( Live Load )
# Beban hidup tangga dan bordes gedung perkantoran
= 300 kg/m2 q LL
= 300 kg/m2
qu = 1,2 qDL + 1,6 qLL = 1,2 ( 413 ) + 1,6 ( 300 ) = 975,6 kg/m2
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
VIII ‐ 3
Gambar 8.c Pembebanan tangga pada pemodelan SAP 2000 8.3 Perhitungan Statika
Perhitungan statika menggunakan software SAP 2000 ( perhitungan terlampir ).
8.4 Penulangan Tangga Direncanakan penulangan tangga menggunakan tulangan D16 untuk tulangan lentur, dengan tebal selimut beton 40 mm. Maka jarak d adalah : d = tebal slab tangga ‐ tebal selimut ‐ 1/2 dia. tulangan lentur = 150 ‐ 40 ‐ 1/2 ( 16 ) = 102 mm
Maka rasio tulangan minimum adalah :
Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
VIII ‐ 4
ρmin = 1,4/fy = 1,4/240 = 0,0058
Rasio tulangan seimbang dan maksimum adalah : ⎧ 600 ⎫ ρb = {( 0,85 x β 1 x fc' ) / fy } x ⎨ ⎬ ⎩ 600 + fy ⎭ β 1 = 0,85 ‐ 0,008 ( fc' ‐ 30 ) = 0,85 ‐ 0,008 ( 30 ‐ 30 ) = 0,85
⎧ 600 ⎫ ρb = {( 0,85 x 0,85 x 30 ) / 240 } x ⎨ ⎬ = 0,064 ⎩ 600 + 240 ⎭ ρmaks = 0,75 ρb = 0,75 ( 0,064 ) = 0,048 m = fy / ( 0,85 x fc' ) = 240 / ( 0,85 x 30 ) = 9,41
Gambar 8.d Momen maksimum pada struktur tangga Tugas Perencanaan Struktur Gedung INSTITUT SAINS DAN TEKNOLOGI NASIONAL
VIII ‐ 5
Dari perhitungan SAP 2000 di atas diperoleh nilai Mu = 120179,65 kg m Tulangan lentur yang diperlukan adalah : k =
Mu 120179,65 = 2 φ bd 0,80 ( 2,175 ) ( 0,102 )2
= 6638674 kg/m 2 = 65,10 MPa dari Tabel A ‐ 11 diperoleh ρ dengan nilai yang terbesar = 0,048
ρmin OK Np c. Uplift - Uf < Ua => OK Ver. / Uf. = Vertical / Uplift
2.1.2 Check of Vertical & Uplift Reaction Ft.Name
Np(EA)
Fl (mm)
Fw (mm)
Σ Xi (m )
Σ Yi (m )
F1
9
4000
4000
13.5
13.5
F2
9
4000
4000
13.5
13.5
F3
9
4000
4000
13.5
13.5
F4
9
4000
4000
13.5
13.5
F5
9
4000
4000
13.5
13.5
F6
9
4000
4000
13.5
13.5
F7
9
4000
4000
13.5
13.5
F8
9
4000
4000
13.5
13.5
F9
9
4000
4000
13.5
13.5
F10
9
4000
4000
13.5
13.5
F11
9
4000
4000
13.5
13.5
F12
9
4000
4000
13.5
13.5
F13
9
4000
4000
13.5
13.5
F14
9
4000
4000
13.5
13.5
F15
9
4000
4000
13.5
13.5
F16
9
4000
4000
13.5
13.5
F17
9
4000
4000
13.5
13.5
F18
9
4000
4000
13.5
13.5
F19
9
4000
4000
13.5
13.5
F20
9
4000
4000
13.5
13.5
F21
9
4000
4000
13.5
13.5
F22
9
4000
4000
13.5
13.5
F23
9
4000
4000
13.5
13.5
F24
9
4000
4000
13.5
13.5
2
2
2
2
Unit( tonf )
Ft.Name
L.Comb.
Pile
R Max
R Min
Ru
Uf
Ra
Ua
Result
F1
1
PHC-12
-11.685
-11.685
0
-11.685
44
13.333
OK
F2
1
PHC-12
-19.234
-19.234
0
-19.234
44
13.333
NG
F3
1
PHC-12
-16.409
-16.409
0
-16.409
44
13.333
NG
Copyright (c) GS E&C. All Rights Reserved
11/18/2009 Project Na. : Perencanaan Pondasi Graha
Calculation Sheet of Foundation
I.. I..
Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 8
F4
1
PHC-12
-16.59
-16.59
0
-16.59
44
13.333
NG
F5
1
PHC-12
-19.201
-19.201
0
-19.201
44
13.333
NG
F6
1
PHC-12
-11.702
-11.702
0
-11.702
44
13.333
OK
F7
1
PHC-12
-17.59
-17.59
0
-17.59
44
13.333
NG
F8
1
PHC-12
-25.69
-25.69
0
-25.69
44
13.333
NG
F9
1
PHC-12
-21.137
-21.137
0
-21.137
44
13.333
NG
F10
1
PHC-12
-21.126
-21.126
0
-21.126
44
13.333
NG
F11
1
PHC-12
-25.668
-25.668
0
-25.668
44
13.333
NG
F12
1
PHC-12
-17.28
-17.28
0
-17.28
44
13.333
NG
F13
1
PHC-12
-15.975
-15.975
0
-15.975
44
13.333
NG
F14
1
PHC-12
-22.354
-22.354
0
-22.354
44
13.333
NG
F15
1
PHC-12
-20.121
-20.121
0
-20.121
44
13.333
NG
F16
1
PHC-12
-19.44
-19.44
0
-19.44
44
13.333
NG
F17
1
PHC-12
-22.365
-22.365
0
-22.365
44
13.333
NG
F18
1
PHC-12
-16.04
-16.04
0
-16.04
44
13.333
NG
F19
1
PHC-12
-11.942
-11.942
0
-11.942
44
13.333
OK
F20
1
PHC-12
-19.285
-19.285
0
-19.285
44
13.333
NG
F21
1
PHC-12
-16.406
-16.406
0
-16.406
44
13.333
NG
F22
1
PHC-12
-16.219
-16.219
0
-16.219
44
13.333
NG
F23
1
PHC-12
-19.317
-19.317
0
-19.317
44
13.333
NG
F24
1
PHC-12
-11.957
-11.957
0
-11.957
44
13.333
OK
2.1.3 Check Of Horizontal Reaction Ft.Name
L.Comb.
Pile
Hmax (tonf)
Ha (tonf)
Result
F1
1
PHC-12
0.125
2.667
OK
F2
1
PHC-12
0.252
2.667
OK
F3
1
PHC-12
0.299
2.667
OK
F4
1
PHC-12
0.332
2.667
OK
F5
1
PHC-12
0.255
2.667
OK
F6
1
PHC-12
0.124
2.667
OK
F7
1
PHC-12
0.383
2.667
OK
F8
1
PHC-12
0.09
2.667
OK
F9
1
PHC-12
0.102
2.667
OK
F10
1
PHC-12
0.111
2.667
OK
F11
1
PHC-12
0.061
2.667
OK
F12
1
PHC-12
0.287
2.667
OK
F13
1
PHC-12
0.331
2.667
OK
F14
1
PHC-12
0.057
2.667
OK
F15
1
PHC-12
0.196
2.667
OK
F16
1
PHC-12
0.141
2.667
OK
F17
1
PHC-12
0.087
2.667
OK
F18
1
PHC-12
0.401
2.667
OK
F19
1
PHC-12
0.123
2.667
OK
F20
1
PHC-12
0.253
2.667
OK
Copyright (c) GS E&C. All Rights Reserved
11/18/2009 Project Na. : Perencanaan Pondasi Graha
Calculation Sheet of Foundation
I.. I..
Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 54
6. DESIGN OF FOOTING 6.1 REQUIRED REINFORCEMENT 6.1.1 Reinforcement Formula - Shrinkage And Temperature Reinforcement ---- ACI CODE 7.12.2 , fac = following As As1 = fac b h Area of shrinkage and temperature reinforcement shall provide at least the following ratio of reinforcement area to gross concrete area, but not less than 0.0014 (a) Slabs where Grade 40 or 50 deformed bars are used ........................................................................0.0020 (b) Slabs where Grade 60 deformed bars or welded wire reinforcement are used....................................0.0018 (c) Slabs where reinforcement with yield stress exceeding 60,000 psi measured at a yield 0.0018 60,000 strain of 0.35 percent is used ....................................................................................................... fy - Required Reinforcement by Analysis As As2 = ρ.req b d - At every section of flexural members where tensile reinforcement is required 3 fck 200 bw d) (As4 = b d) ---- ACI Eq (10-3) As (As5 = fy fy - The requirements of Eq (10-3) need not be applied, if every section As provided is at least one -third greater then that required by analysis ---- ACI CODE 10.5.3 As3 = 1.333 ρ.req b d Asmax = 0.75 ρb b d fck 0.003 Es ρb = 0.85 β 1 f 0.003 Es + fy y Selected As = Max ( As1 , As2 , Min ( As3 , Max ( As4 , As5 ) ) ) If Selected As < Using As < Asmax , then OK!! Note : The reinforcement is calculated bases on the maximum moment under the foundation in each direction. But, the 'ISO' , 'OCT' , 'HEX' , 'COMB' , 'TANK1' foundations are calaulated as face pier Where, Mu 0.85 fck 2Rn 1- 1Rn = 2 , φ = 0.9 , ρ.req = fy 0.85fck φbd
(
)
6.1.2 Check of Footing Reinforcement Footing Name : F1 GroupType : Isolated - X direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
1.650
1.000
74.200
10.053
1
botom
5 - 16M @ 200
2.000
1.000
64.200
10.053
S1
Sec.Nam
L.Comb.
Mu (tonf-m)
Rn
ρ.Req
1
top
10.698
2.159
0.0005
1
bottom
-
-
-
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
3.836
5.113
24.842
21.080
126.703
1
bottom
7.200
-
-
21.494
18.239
109.627
S1
Sec.Nam
L.Comb.
2
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
7.200
OK
1
bottom
10.053
7.200
OK
S1
Copyright (c) GS E&C. All Rights Reserved
11/18/2009 Project Na. : Perencanaan Pondasi Graha
Calculation Sheet of Foundation
I.. I..
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Page 55
- Y direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
1.650
1.000
72.600
10.053
1
botom
5 - 16M @ 200
2.000
1.000
62.600
10.053
S1
Sec.Nam
Mu (tonf-m)
Rn
ρ.Req
1
top
10.714
2.259
0.0005
1
bottom
-
-
-
L.Comb.
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
3.928
5.235
24.306
20.625
123.971
1
bottom
7.200
-
-
20.958
17.784
106.895
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
7.200
OK
1
bottom
10.053
7.200
OK
S1
Footing Name : F2 GroupType : Isolated - X direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
1.650
1.000
74.200
10.053
1
botom
5 - 16M @ 200
2.000
1.000
64.200
10.053
S1
Sec.Nam
Mu (tonf-m)
Rn
ρ.Req
1
top
17.181
3.467
0.0008
1
bottom
-
-
-
L.Comb.
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
6.182
8.241
24.842
21.080
126.703
1
bottom
7.200
-
-
21.494
18.239
109.627
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
8.241
OK
1
bottom
10.053
7.200
OK
S1
- Y direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
1.650
1.000
72.600
10.053
1
botom
5 - 16M @ 200
2.000
1.000
62.600
10.053
S1
Sec.Nam
L.Comb.
Mu (tonf-m)
Rn
ρ.Req
1
top
16.580
3.495
0.0008
1
bottom
-
-
-
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
6.098
8.129
24.306
20.625
123.971
1
bottom
7.200
-
-
20.958
17.784
106.895
S1
Copyright (c) GS E&C. All Rights Reserved
11/18/2009 Project Na. : Perencanaan Pondasi Graha
Calculation Sheet of Foundation
I.. I..
Sec.Nam
2
L.Comb.
Project No. : Perencanaan Pondasi Graha Client : Institut Sains da... 2
Page 56
Using As(cm )
Select As(cm )
Result
1
top
10.053
8.129
OK
1
bottom
10.053
7.200
OK
S1
Footing Name : F3 GroupType : Isolated - X direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
1.650
1.000
74.200
10.053
1
botom
5 - 16M @ 200
2.000
1.000
64.200
10.053
S1
Sec.Nam
L.Comb.
Mu (tonf-m)
Rn
ρ.Req
1
top
14.830
2.993
0.0007
1
bottom
-
-
-
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
5.330
7.104
24.842
21.080
126.703
1
bottom
7.200
-
-
21.494
18.239
109.627
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
7.200
OK
1
bottom
10.053
7.200
OK
S1
- Y direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
2.350
1.000
72.600
10.053
1
botom
5 - 16M @ 200
2.000
1.000
62.600
10.053
S1
Sec.Nam
L.Comb.
Mu (tonf-m)
Rn
ρ.Req
1
top
14.552
3.068
0.0007
1
bottom
-
-
-
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
5.346
7.126
24.306
20.625
123.971
1
bottom
7.200
-
-
20.958
17.784
106.895
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
7.200
OK
1
bottom
10.053
7.200
OK
S1
Footing Name : F4 GroupType : Isolated - X direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
1.650
1.000
74.200
10.053
1
botom
5 - 16M @ 200
2.000
1.000
64.200
10.053
S1
Sec.Nam
L.Comb.
Mu (tonf-m)
Rn
ρ.Req
1
top
14.873
3.002
0.0007
1
bottom
-
-
-
S1
Copyright (c) GS E&C. All Rights Reserved
11/18/2009 Project Na. : Perencanaan Pondasi Graha
Calculation Sheet of Foundation
I.. I..
Sec.Nam
L.Comb.
2
2
Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
2
2
Page 57
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
5.345
7.125
24.842
21.080
126.703
1
bottom
7.200
-
-
21.494
18.239
109.627
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
7.200
OK
1
bottom
10.053
7.200
OK
S1
- Y direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
1.650
1.000
72.600
10.053
1
botom
5 - 16M @ 200
2.000
1.000
62.600
10.053
S1
Sec.Nam
L.Comb.
Mu (tonf-m)
Rn
ρ.Req
1
top
14.594
3.077
0.0007
1
bottom
-
-
-
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
5.362
7.147
24.306
20.625
123.971
1
bottom
7.200
-
-
20.958
17.784
106.895
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
7.200
OK
1
bottom
10.053
7.200
OK
S1
Footing Name : F5 GroupType : Isolated - X direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
1.650
1.000
74.200
10.053
1
botom
5 - 16M @ 200
2.000
1.000
64.200
10.053
S1
Sec.Nam
Mu (tonf-m)
Rn
ρ.Req
1
top
17.212
3.474
0.0008
1
bottom
-
-
-
L.Comb.
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
6.194
8.256
24.842
21.080
126.703
1
bottom
7.200
-
-
21.494
18.239
109.627
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
8.256
OK
1
bottom
10.053
7.200
OK
S1
- Y direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
2.350
1.000
72.600
10.053
1
botom
5 - 16M @ 200
2.000
1.000
62.600
10.053
S1
Copyright (c) GS E&C. All Rights Reserved
11/18/2009 Project Na. : Perencanaan Pondasi Graha
Calculation Sheet of Foundation
I.. I..
Sec.Nam
L.Comb.
Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 58
Mu (tonf-m)
Rn
ρ.Req
1
top
16.579
3.495
0.0008
1
bottom
-
-
-
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
6.098
8.128
24.306
20.625
123.971
1
bottom
7.200
-
-
20.958
17.784
106.895
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
8.128
OK
1
bottom
10.053
7.200
OK
S1
Footing Name : F6 GroupType : Isolated - X direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
1.650
1.000
74.200
10.053
1
botom
5 - 16M @ 200
2.000
1.000
64.200
10.053
S1
Sec.Nam
L.Comb.
Mu (tonf-m)
Rn
ρ.Req
1
top
10.719
2.163
0.0005
1
bottom
-
-
-
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
3.844
5.124
24.842
21.080
126.703
1
bottom
7.200
-
-
21.494
18.239
109.627
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
7.200
OK
1
bottom
10.053
7.200
OK
S1
- Y direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
2.350
1.000
72.600
10.053
1
botom
5 - 16M @ 200
2.000
1.000
62.600
10.053
S1
Sec.Nam
L.Comb.
Mu (tonf-m)
Rn
ρ.Req
1
top
10.689
2.253
0.0005
1
bottom
-
-
-
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
3.918
5.223
24.306
20.625
123.971
1
bottom
7.200
-
-
20.958
17.784
106.895
S1
Sec.Nam
L.Comb.
2
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
7.200
OK
1
bottom
10.053
7.200
OK
S1
Copyright (c) GS E&C. All Rights Reserved
11/18/2009 Project Na. : Perencanaan Pondasi Graha
Calculation Sheet of Foundation
I.. I..
Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 59
Footing Name : F7 GroupType : Isolated - X direction (Unit Width)
Sec.Nam
L.Comb. 1
top
1
botom
Loc. (m)
Width b (m)
d (cm)
As (cm )
5 - 16M @ 200
2.350
1.000
74.200
10.053
5 - 16M @ 200
2.000
1.000
64.200
10.053
S1
Sec.Nam
2
Using Bar (mm)
Mu (tonf-m)
Rn
ρ.Req
1
top
15.447
3.117
0.0007
1
bottom
-
-
-
L.Comb.
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
5.553
7.402
24.842
21.080
126.703
1
bottom
7.200
-
-
21.494
18.239
109.627
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
7.402
OK
1
bottom
10.053
7.200
OK
S1
- Y direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
1.650
1.000
72.600
10.053
1
botom
5 - 16M @ 200
2.000
1.000
62.600
10.053
S1
Sec.Nam
L.Comb.
Mu (tonf-m)
Rn
ρ.Req
1
top
15.696
3.309
0.0008
1
bottom
-
-
-
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
5.770
7.691
24.306
20.625
123.971
1
bottom
7.200
-
-
20.958
17.784
106.895
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
7.691
OK
1
bottom
10.053
7.200
OK
S1
Footing Name : F8 GroupType : Isolated - X direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
2.350
1.000
74.200
10.053
1
botom
5 - 16M @ 200
2.000
1.000
64.200
10.053
S1
Sec.Nam
L.Comb.
Mu (tonf-m)
Rn
ρ.Req
1
top
22.544
4.550
0.0011
1
bottom
-
-
-
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
8.136
10.845
24.842
21.080
126.703
1
bottom
7.200
-
-
21.494
18.239
109.627
S1
Copyright (c) GS E&C. All Rights Reserved
11/18/2009 Project Na. : Perencanaan Pondasi Graha
Calculation Sheet of Foundation
I.. I..
Sec.Nam
2
L.Comb.
Project No. : Perencanaan Pondasi Graha Client : Institut Sains da... 2
Page 60
Using As(cm )
Select As(cm )
Result
1
top
10.053
10.845
NG
1
bottom
10.053
7.200
OK
S1
- Y direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
1.650
1.000
72.600
10.053
1
botom
5 - 16M @ 200
2.000
1.000
62.600
10.053
S1
Sec.Nam
Mu (tonf-m)
Rn
ρ.Req
1
top
22.178
4.675
0.0011
1
bottom
-
-
-
L.Comb.
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
8.183
10.908
24.306
20.625
123.971
1
bottom
7.200
-
-
20.958
17.784
106.895
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
10.908
NG
1
bottom
10.053
7.200
OK
S1
Footing Name : F9 GroupType : Isolated - X direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
2.350
1.000
74.200
10.053
1
botom
5 - 16M @ 200
2.000
1.000
64.200
10.053
S1
Sec.Nam
L.Comb.
Mu (tonf-m)
Rn
ρ.Req
1
top
18.611
3.756
0.0009
1
bottom
-
-
-
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
6.702
8.934
24.842
21.080
126.703
1
bottom
7.200
-
-
21.494
18.239
109.627
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
8.934
OK
1
bottom
10.053
7.200
OK
S1
- Y direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
2.350
1.000
72.600
10.053
1
botom
5 - 16M @ 200
2.000
1.000
62.600
10.053
S1
Sec.Nam
Mu (tonf-m)
Rn
ρ.Req
1
top
18.564
3.913
0.0009
1
bottom
-
-
-
L.Comb.
S1
Copyright (c) GS E&C. All Rights Reserved
11/18/2009 Project Na. : Perencanaan Pondasi Graha
Calculation Sheet of Foundation
I.. I..
Sec.Nam
L.Comb.
2
2
Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
2
2
Page 61
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
6.835
9.112
24.306
20.625
123.971
1
bottom
7.200
-
-
20.958
17.784
106.895
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
9.112
OK
1
bottom
10.053
7.200
OK
S1
Footing Name : F10 GroupType : Isolated - X direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
2.350
1.000
74.200
10.053
1
botom
5 - 16M @ 200
2.000
1.000
64.200
10.053
S1
Sec.Nam
L.Comb.
Mu (tonf-m)
Rn
ρ.Req
1
top
18.574
3.749
0.0009
1
bottom
-
-
-
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
6.689
8.916
24.842
21.080
126.703
1
bottom
7.200
-
-
21.494
18.239
109.627
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
8.916
OK
1
bottom
10.053
7.200
OK
S1
- Y direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
1.650
1.000
72.600
10.053
1
botom
5 - 16M @ 200
2.000
1.000
62.600
10.053
S1
Sec.Nam
Mu (tonf-m)
Rn
ρ.Req
1
top
18.597
3.920
0.0009
1
bottom
-
-
-
L.Comb.
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
6.848
9.128
24.306
20.625
123.971
1
bottom
7.200
-
-
20.958
17.784
106.895
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
9.128
OK
1
bottom
10.053
7.200
OK
S1
Footing Name : F11 GroupType : Isolated - X direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
2.350
1.000
74.200
10.053
1
botom
5 - 16M @ 200
2.000
1.000
64.200
10.053
S1
Copyright (c) GS E&C. All Rights Reserved
11/18/2009 Project Na. : Perencanaan Pondasi Graha
Calculation Sheet of Foundation
I.. I..
Sec.Nam
L.Comb.
Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 62
Mu (tonf-m)
Rn
ρ.Req
1
top
22.497
4.540
0.0011
1
bottom
-
-
-
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
8.119
10.822
24.842
21.080
126.703
1
bottom
7.200
-
-
21.494
18.239
109.627
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
10.822
NG
1
bottom
10.053
7.200
OK
S1
- Y direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
1.650
1.000
72.600
10.053
1
botom
5 - 16M @ 200
2.000
1.000
62.600
10.053
S1
Sec.Nam
Mu (tonf-m)
Rn
ρ.Req
1
top
22.160
4.672
0.0011
1
bottom
-
-
-
L.Comb.
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
8.176
10.899
24.306
20.625
123.971
1
bottom
7.200
-
-
20.958
17.784
106.895
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
10.899
NG
1
bottom
10.053
7.200
OK
S1
Footing Name : F12 GroupType : Isolated - X direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
2.350
1.000
74.200
10.053
1
botom
5 - 16M @ 200
2.000
1.000
64.200
10.053
S1
Sec.Nam
L.Comb.
Mu (tonf-m)
Rn
ρ.Req
1
top
15.374
3.103
0.0007
1
bottom
-
-
-
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
5.527
7.367
24.842
21.080
126.703
1
bottom
7.200
-
-
21.494
18.239
109.627
S1
Sec.Nam
L.Comb.
2
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
7.367
OK
1
bottom
10.053
7.200
OK
S1
Copyright (c) GS E&C. All Rights Reserved
11/18/2009 Project Na. : Perencanaan Pondasi Graha
Calculation Sheet of Foundation
I.. I..
Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 63
- Y direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
2.350
1.000
72.600
10.053
1
botom
5 - 16M @ 200
2.000
1.000
62.600
10.053
S1
Sec.Nam
Mu (tonf-m)
Rn
ρ.Req
1
top
15.609
3.291
0.0008
1
bottom
-
-
-
L.Comb.
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
5.738
7.648
24.306
20.625
123.971
1
bottom
7.200
-
-
20.958
17.784
106.895
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
7.648
OK
1
bottom
10.053
7.200
OK
S1
Footing Name : F13 GroupType : Isolated - X direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
2.350
1.000
74.200
10.053
1
botom
5 - 16M @ 200
2.000
1.000
64.200
10.053
S1
Sec.Nam
Mu (tonf-m)
Rn
ρ.Req
1
top
14.021
2.830
0.0007
1
bottom
-
-
-
L.Comb.
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
5.037
6.714
24.842
21.080
126.703
1
bottom
7.200
-
-
21.494
18.239
109.627
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
7.200
OK
1
bottom
10.053
7.200
OK
S1
- Y direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
1.650
1.000
72.600
10.053
1
botom
5 - 16M @ 200
2.000
1.000
62.600
10.053
S1
Sec.Nam
L.Comb.
Mu (tonf-m)
Rn
ρ.Req
1
top
14.404
3.037
0.0007
1
bottom
-
-
-
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
5.291
7.053
24.306
20.625
123.971
1
bottom
7.200
-
-
20.958
17.784
106.895
S1
Copyright (c) GS E&C. All Rights Reserved
11/18/2009 Project Na. : Perencanaan Pondasi Graha
Calculation Sheet of Foundation
I.. I..
Sec.Nam
2
L.Comb.
Project No. : Perencanaan Pondasi Graha Client : Institut Sains da... 2
Page 64
Using As(cm )
Select As(cm )
Result
1
top
10.053
7.200
OK
1
bottom
10.053
7.200
OK
S1
Footing Name : F14 GroupType : Isolated - X direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
2.350
1.000
74.200
10.053
1
botom
5 - 16M @ 200
2.000
1.000
64.200
10.053
S1
Sec.Nam
L.Comb.
Mu (tonf-m)
Rn
ρ.Req
1
top
19.503
3.936
0.0009
1
bottom
-
-
-
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
7.027
9.367
24.842
21.080
126.703
1
bottom
7.200
-
-
21.494
18.239
109.627
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
9.367
OK
1
bottom
10.053
7.200
OK
S1
- Y direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
2.350
1.000
72.600
10.053
1
botom
5 - 16M @ 200
2.000
1.000
62.600
10.053
S1
Sec.Nam
L.Comb.
Mu (tonf-m)
Rn
ρ.Req
1
top
19.307
4.070
0.0010
1
bottom
-
-
-
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
7.112
9.480
24.306
20.625
123.971
1
bottom
7.200
-
-
20.958
17.784
106.895
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
9.480
OK
1
bottom
10.053
7.200
OK
S1
Footing Name : F15 GroupType : Isolated - X direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
2.350
1.000
74.200
10.053
1
botom
5 - 16M @ 200
2.000
1.000
64.200
10.053
S1
Sec.Nam
L.Comb.
Mu (tonf-m)
Rn
ρ.Req
1
top
17.533
3.538
0.0009
1
bottom
-
-
-
S1
Copyright (c) GS E&C. All Rights Reserved
11/18/2009 Project Na. : Perencanaan Pondasi Graha
Calculation Sheet of Foundation
I.. I..
Sec.Nam
L.Comb.
2
2
Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
2
2
Page 65
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
6.310
8.411
24.842
21.080
126.703
1
bottom
7.200
-
-
21.494
18.239
109.627
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
8.411
OK
1
bottom
10.053
7.200
OK
S1
- Y direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
2.350
1.000
72.600
10.053
1
botom
5 - 16M @ 200
2.000
1.000
62.600
10.053
S1
Sec.Nam
L.Comb.
Mu (tonf-m)
Rn
ρ.Req
1
top
17.708
3.733
0.0009
1
bottom
-
-
-
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
6.517
8.687
24.306
20.625
123.971
1
bottom
7.200
-
-
20.958
17.784
106.895
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
8.687
OK
1
bottom
10.053
7.200
OK
S1
Footing Name : F16 GroupType : Isolated - X direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
2.350
1.000
74.200
10.053
1
botom
5 - 16M @ 200
2.000
1.000
64.200
10.053
S1
Sec.Nam
Mu (tonf-m)
Rn
ρ.Req
1
top
17.008
3.433
0.0008
1
bottom
-
-
-
L.Comb.
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
6.119
8.157
24.842
21.080
126.703
1
bottom
7.200
-
-
21.494
18.239
109.627
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
8.157
OK
1
bottom
10.053
7.200
OK
S1
- Y direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
1.650
1.000
72.600
10.053
1
botom
5 - 16M @ 200
2.000
1.000
62.600
10.053
S1
Copyright (c) GS E&C. All Rights Reserved
11/18/2009 Project Na. : Perencanaan Pondasi Graha
Calculation Sheet of Foundation
I.. I..
Sec.Nam
L.Comb.
Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 66
Mu (tonf-m)
Rn
ρ.Req
1
top
17.153
3.616
0.0009
1
bottom
-
-
-
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
6.311
8.412
24.306
20.625
123.971
1
bottom
7.200
-
-
20.958
17.784
106.895
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
8.412
OK
1
bottom
10.053
7.200
OK
S1
Footing Name : F17 GroupType : Isolated - X direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
2.350
1.000
74.200
10.053
1
botom
5 - 16M @ 200
2.000
1.000
64.200
10.053
S1
Sec.Nam
L.Comb.
Mu (tonf-m)
Rn
ρ.Req
1
top
19.455
3.926
0.0009
1
bottom
-
-
-
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
7.009
9.343
24.842
21.080
126.703
1
bottom
7.200
-
-
21.494
18.239
109.627
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
9.343
OK
1
bottom
10.053
7.200
OK
S1
- Y direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
2.350
1.000
72.600
10.053
1
botom
5 - 16M @ 200
2.000
1.000
62.600
10.053
S1
Sec.Nam
L.Comb.
Mu (tonf-m)
Rn
ρ.Req
1
top
19.315
4.072
0.0010
1
bottom
-
-
-
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
7.115
9.484
24.306
20.625
123.971
1
bottom
7.200
-
-
20.958
17.784
106.895
S1
Sec.Nam
L.Comb.
2
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
9.484
OK
1
bottom
10.053
7.200
OK
S1
Copyright (c) GS E&C. All Rights Reserved
11/18/2009 Project Na. : Perencanaan Pondasi Graha
Calculation Sheet of Foundation
I.. I..
Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 67
Footing Name : F18 GroupType : Isolated - X direction (Unit Width)
Sec.Nam
L.Comb. 1
top
1
botom
Loc. (m)
Width b (m)
d (cm)
As (cm )
5 - 16M @ 200
2.350
1.000
74.200
10.053
5 - 16M @ 200
2.000
1.000
64.200
10.053
S1
Sec.Nam
2
Using Bar (mm)
Mu (tonf-m)
Rn
ρ.Req
1
top
14.002
2.826
0.0007
1
bottom
-
-
-
L.Comb.
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
5.030
6.705
24.842
21.080
126.703
1
bottom
7.200
-
-
21.494
18.239
109.627
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
7.200
OK
1
bottom
10.053
7.200
OK
S1
- Y direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
2.350
1.000
72.600
10.053
1
botom
5 - 16M @ 200
2.000
1.000
62.600
10.053
S1
Sec.Nam
L.Comb.
Mu (tonf-m)
Rn
ρ.Req
1
top
14.458
3.048
0.0007
1
bottom
-
-
-
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
5.311
7.080
24.306
20.625
123.971
1
bottom
7.200
-
-
20.958
17.784
106.895
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
7.200
OK
1
bottom
10.053
7.200
OK
S1
Footing Name : F19 GroupType : Isolated - X direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
2.350
1.000
74.200
10.053
1
botom
5 - 16M @ 200
2.000
1.000
64.200
10.053
S1
Sec.Nam
L.Comb.
Mu (tonf-m)
Rn
ρ.Req
1
top
10.781
2.176
0.0005
1
bottom
-
-
-
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
3.866
5.153
24.842
21.080
126.703
1
bottom
7.200
-
-
21.494
18.239
109.627
S1
Copyright (c) GS E&C. All Rights Reserved
11/18/2009 Project Na. : Perencanaan Pondasi Graha
Calculation Sheet of Foundation
I.. I..
Sec.Nam
2
L.Comb.
Project No. : Perencanaan Pondasi Graha Client : Institut Sains da... 2
Page 68
Using As(cm )
Select As(cm )
Result
1
top
10.053
7.200
OK
1
bottom
10.053
7.200
OK
S1
- Y direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
1.650
1.000
72.600
10.053
1
botom
5 - 16M @ 200
2.000
1.000
62.600
10.053
S1
Sec.Nam
Mu (tonf-m)
Rn
ρ.Req
1
top
10.915
2.301
0.0006
1
bottom
-
-
-
L.Comb.
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
4.002
5.334
24.306
20.625
123.971
1
bottom
7.200
-
-
20.958
17.784
106.895
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
7.200
OK
1
bottom
10.053
7.200
OK
S1
Footing Name : F20 GroupType : Isolated - X direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
2.350
1.000
74.200
10.053
1
botom
5 - 16M @ 200
2.000
1.000
64.200
10.053
S1
Sec.Nam
L.Comb.
Mu (tonf-m)
Rn
ρ.Req
1
top
17.135
3.458
0.0008
1
bottom
-
-
-
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
6.166
8.219
24.842
21.080
126.703
1
bottom
7.200
-
-
21.494
18.239
109.627
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
8.219
OK
1
bottom
10.053
7.200
OK
S1
- Y direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
2.350
1.000
72.600
10.053
1
botom
5 - 16M @ 200
2.000
1.000
62.600
10.053
S1
Sec.Nam
Mu (tonf-m)
Rn
ρ.Req
1
top
16.646
3.509
0.0008
1
bottom
-
-
-
L.Comb.
S1
Copyright (c) GS E&C. All Rights Reserved
11/18/2009 Project Na. : Perencanaan Pondasi Graha
Calculation Sheet of Foundation
I.. I..
Sec.Nam
L.Comb.
2
2
Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
2
2
Page 69
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
6.122
8.161
24.306
20.625
123.971
1
bottom
7.200
-
-
20.958
17.784
106.895
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
8.161
OK
1
bottom
10.053
7.200
OK
S1
Footing Name : F21 GroupType : Isolated - X direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
2.350
1.000
74.200
10.053
1
botom
5 - 16M @ 200
2.000
1.000
64.200
10.053
S1
Sec.Nam
L.Comb.
Mu (tonf-m)
Rn
ρ.Req
1
top
14.559
2.938
0.0007
1
bottom
-
-
-
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
5.231
6.973
24.842
21.080
126.703
1
bottom
7.200
-
-
21.494
18.239
109.627
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
7.200
OK
1
bottom
10.053
7.200
OK
S1
- Y direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
2.350
1.000
72.600
10.053
1
botom
5 - 16M @ 200
2.000
1.000
62.600
10.053
S1
Sec.Nam
Mu (tonf-m)
Rn
ρ.Req
1
top
14.472
3.051
0.0007
1
bottom
-
-
-
L.Comb.
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
5.316
7.087
24.306
20.625
123.971
1
bottom
7.200
-
-
20.958
17.784
106.895
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
7.200
OK
1
bottom
10.053
7.200
OK
S1
Footing Name : F22 GroupType : Isolated - X direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
2.350
1.000
74.200
10.053
1
botom
5 - 16M @ 200
2.000
1.000
64.200
10.053
S1
Copyright (c) GS E&C. All Rights Reserved
11/18/2009 Project Na. : Perencanaan Pondasi Graha
Calculation Sheet of Foundation
I.. I..
Sec.Nam
L.Comb.
Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 70
Mu (tonf-m)
Rn
ρ.Req
1
top
14.500
2.926
0.0007
1
bottom
-
-
-
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
5.210
6.945
24.842
21.080
126.703
1
bottom
7.200
-
-
21.494
18.239
109.627
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
7.200
OK
1
bottom
10.053
7.200
OK
S1
- Y direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
1.650
1.000
72.600
10.053
1
botom
5 - 16M @ 200
2.000
1.000
62.600
10.053
S1
Sec.Nam
Mu (tonf-m)
Rn
ρ.Req
1
top
14.417
3.039
0.0007
1
bottom
-
-
-
L.Comb.
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
5.296
7.060
24.306
20.625
123.971
1
bottom
7.200
-
-
20.958
17.784
106.895
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
7.200
OK
1
bottom
10.053
7.200
OK
S1
Footing Name : F23 GroupType : Isolated - X direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
2.350
1.000
74.200
10.053
1
botom
5 - 16M @ 200
2.000
1.000
64.200
10.053
S1
Sec.Nam
L.Comb.
Mu (tonf-m)
Rn
ρ.Req
1
top
17.102
3.451
0.0008
1
bottom
-
-
-
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
6.154
8.203
24.842
21.080
126.703
1
bottom
7.200
-
-
21.494
18.239
109.627
S1
Sec.Nam
L.Comb.
2
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
8.203
OK
1
bottom
10.053
7.200
OK
S1
Copyright (c) GS E&C. All Rights Reserved
11/18/2009 Project Na. : Perencanaan Pondasi Graha
Calculation Sheet of Foundation
I.. I..
Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 71
- Y direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
2.350
1.000
72.600
10.053
1
botom
5 - 16M @ 200
2.000
1.000
62.600
10.053
S1
Sec.Nam
Mu (tonf-m)
Rn
ρ.Req
1
top
16.668
3.514
0.0008
1
bottom
-
-
-
L.Comb.
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
6.131
8.172
24.306
20.625
123.971
1
bottom
7.200
-
-
20.958
17.784
106.895
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
8.172
OK
1
bottom
10.053
7.200
OK
S1
Footing Name : F24 GroupType : Isolated - X direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
2.350
1.000
74.200
10.053
1
botom
5 - 16M @ 200
2.000
1.000
64.200
10.053
S1
Sec.Nam
Mu (tonf-m)
Rn
ρ.Req
1
top
10.754
2.170
0.0005
1
bottom
-
-
-
L.Comb.
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
3.856
5.140
24.842
21.080
126.703
1
bottom
7.200
-
-
21.494
18.239
109.627
S1
Sec.Nam
2
L.Comb.
2
Using As(cm )
Select As(cm )
Result
1
top
10.053
7.200
OK
1
bottom
10.053
7.200
OK
S1
- Y direction (Unit Width)
Sec.Nam
L.Comb.
2
Using Bar (mm)
Loc. (m)
Width b (m)
d (cm)
As (cm )
1
top
5 - 16M @ 200
2.350
1.000
72.600
10.053
1
botom
5 - 16M @ 200
2.000
1.000
62.600
10.053
S1
Sec.Nam
L.Comb.
Mu (tonf-m)
Rn
ρ.Req
1
top
10.933
2.305
0.0006
1
bottom
-
-
-
S1
Sec.Nam
L.Comb.
2
2
2
2
2
2
As1(cm )
As2(cm )
As3(cm )
As4(cm )
As5(cm )
Asmax(cm )
1
top
7.200
4.008
5.343
24.306
20.625
123.971
1
bottom
7.200
-
-
20.958
17.784
106.895
S1
Copyright (c) GS E&C. All Rights Reserved
11/18/2009 Project Na. : Perencanaan Pondasi Graha
Calculation Sheet of Foundation
I.. I..
Sec.Nam
L.Comb.
2
Project No. : Perencanaan Pondasi Graha Client : Institut Sains da... 2
Page 72
Using As(cm )
Select As(cm )
Result
1
top
10.053
7.200
OK
1
bottom
10.053
7.200
OK
S1
Copyright (c) GS E&C. All Rights Reserved
1 1 /1 8 /2 0 0 9
Calculation Sheet of Foundation
I.. I..
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 169
6.2 PILE PUNCHING SHEAR FORCE 6.2.1 Pile Punching Shear Formula Vu = ΣFz Shade Ratio (a) φ Vc1 = 0.85 2 (1 + 2/βc) fck bo d (eq 11-33) 1/2 Vsmax then, Max Space = 0.5
50bws fy
[ACI CODE 11.5.6.3 (11-13)]
Min( 0.5 d , 23.62 in )
7.2 GEOMETRY AND MATERIALS 7.2.1 General
Unit(kgf/cm2,mm)
φ(Flexure)
φ(Shear)
fck
fy1
fy2
0.9
0.85
225.00
4200.00
4200.00
Copyright (c) GS E&C. All Rights Reserved
11/18/2009
Calculation Sheet of Foundation
I.. I..
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 177
7.2.2 MATERIAL
50
Unit (mm , tonf , tonf-m) 300 50
Girder_1
BMD
Length : 6000
-1.32
LC#:1
0.51
450
Top : 3 - 16M Bottom : 3 - 16M
SFD
50
LC#:1 Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_2
-1.09 BMD
Length : 6000
-1.41
LC#:1
0.53
450
Top : 3 - 16M Bottom : 3 - 16M
SFD
50
LC#:1 Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_3
-1.12 BMD
Length : 4999.999
-1.16
LC#:1
0.38
450
Top : 3 - 16M Bottom : 3 - 16M
SFD
50
LC#:1 Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_4
-1.00 BMD
Length : 6000.002
-1.36
LC#:1
0.51
450
Top : 3 - 16M Bottom : 3 - 16M
SFD
50
LC#:1 Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_5
-1.10 BMD
Length : 6000
-1.46
LC#:1
0.55
450
Top : 3 - 16M Bottom : 3 - 16M
SFD
50
LC#:1 Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_6
-1.14 BMD
Length : 6800
-1.66
LC#:1
0.67
450
Top : 3 - 16M 50
Bottom : 3 - 16M Side : 2 1 - 16M Stirrup : 10M @ 200
Copyright (c) GS E&C. All Rights Reserved
SFD
1.23
LC#:1
11/18/2009
Calculation Sheet of Foundation
I..
50
I..
300 50
Girder_7
BMD
-1.29
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 178
LC#:1
Length : 6800
0.64 450
Top : 3 - 16M SFD
50
Bottom : 3 - 16M
1.12
LC#:1
Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_8
BMD
Length : 6800
-1.41
LC#:1
0.63
450
Top : 3 - 16M Bottom : 3 - 16M
SFD
50
LC#:1 Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_9
-1.15 BMD
Length : 6800
-1.49
LC#:1
0.65
450
Top : 3 - 16M SFD
50
Bottom : 3 - 16M
1.18
LC#:1
Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_10
BMD
-1.28
LC#:1
Length : 6800
0.63 450
Top : 3 - 16M SFD
50
Bottom : 3 - 16M
1.11
LC#:1
Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_11
BMD
Length : 6800
-1.58
LC#:1
0.64
450
Top : 3 - 16M Bottom : 3 - 16M
SFD
50
LC#:1 Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_12
-1.20 BMD
Length : 5000
-1.17
LC#:1
0.38
450
Top : 3 - 16M 50
Bottom : 3 - 16M Side : 2 1 - 16M Stirrup : 10M @ 200
Copyright (c) GS E&C. All Rights Reserved
SFD
1.01
LC#:1
11/18/2009
Calculation Sheet of Foundation
I..
50
I..
300 50
Girder_13
BMD
-0.70
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 179
LC#:1
Length : 5000
0.34 450
Top : 3 - 16M Bottom : 3 - 16M
SFD
50
LC#:1 Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_14
-0.82 BMD
Length : 5000
-0.99
LC#:1
0.34
450
Top : 3 - 16M Bottom : 3 - 16M
SFD
50
LC#:1 Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_15
-0.93 BMD
Length : 5000
-0.97
LC#:1
0.34
450
Top : 3 - 16M SFD
50
Bottom : 3 - 16M
0.93
LC#:1
Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_16
BMD
Length : 5000
-0.72
LC#:1
0.32
450
Top : 3 - 16M Bottom : 3 - 16M
SFD
50
LC#:1 Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_17
-0.82 BMD
Length : 5000
-1.20
LC#:1
0.41
450
Top : 3 - 16M Bottom : 3 - 16M
SFD
50
LC#:1 Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_18
-1.02 BMD
Length : 6800
-1.59
LC#:1
0.64
450
Top : 3 - 16M 50
Bottom : 3 - 16M Side : 2 1 - 16M Stirrup : 10M @ 200
Copyright (c) GS E&C. All Rights Reserved
SFD
1.20
LC#:1
11/18/2009
Calculation Sheet of Foundation
I..
50
I..
300 50
Girder_19
BMD
-1.26
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 180
LC#:1
Length : 6800
0.64 450
Top : 3 - 16M Bottom : 3 - 16M
SFD
50
LC#:1 Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_20
-1.11 BMD
Length : 6800
-1.50
LC#:1
0.65
450
Top : 3 - 16M Bottom : 3 - 16M
SFD
50
LC#:1 Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_21
-1.18 BMD
Length : 6800
-1.44
LC#:1
0.63
450
Top : 3 - 16M SFD
50
Bottom : 3 - 16M
1.16
LC#:1
Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_22
BMD
-1.28
LC#:1
Length : 6800
0.62 450
Top : 3 - 16M Bottom : 3 - 16M
SFD
50
LC#:1 Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_23
-1.11 BMD
Length : 6800
-1.65
LC#:1
0.65
450
Top : 3 - 16M Bottom : 3 - 16M
SFD
50
LC#:1 Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_24
-1.22 BMD
Length : 6000
-1.36
LC#:1
0.53
450
Top : 3 - 16M 50
Bottom : 3 - 16M Side : 2 1 - 16M Stirrup : 10M @ 200
Copyright (c) GS E&C. All Rights Reserved
SFD
1.11
LC#:1
11/18/2009
Calculation Sheet of Foundation
I..
50
I..
300 50
Girder_25
BMD
Length : 6000
-1.28
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 181
LC#:1
0.50
450
Top : 3 - 16M SFD
50
Bottom : 3 - 16M
1.07
LC#:1
Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_26
BMD
Length : 4999.999
-1.10
LC#:1
0.37
450
Top : 3 - 16M SFD
50
Bottom : 3 - 16M
0.98
LC#:1
Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_27
BMD
Length : 6000.002
-1.31
LC#:1
0.52
450
Top : 3 - 16M SFD
50
Bottom : 3 - 16M
1.09
LC#:1
Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_28
BMD
Length : 6000
-1.24
LC#:1
0.49
450
Top : 3 - 16M SFD
50
Bottom : 3 - 16M
1.06
LC#:1
Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_29
BMD
Length : 6000
-1.20
LC#:1
0.50
450
Top : 3 - 16M SFD
50
Bottom : 3 - 16M
1.05
LC#:1
Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_30
BMD
Length : 6000
-1.11
LC#:1
0.50
450
Top : 3 - 16M 50
Bottom : 3 - 16M Side : 2 1 - 16M Stirrup : 10M @ 200
Copyright (c) GS E&C. All Rights Reserved
SFD
1.02
LC#:1
11/18/2009
Calculation Sheet of Foundation
I..
50
I..
300 50
Girder_31
BMD
Length : 4999.999
-0.84
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 182
LC#:1
0.35
450
Top : 3 - 16M SFD
50
Bottom : 3 - 16M
0.87
LC#:1
Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_32
BMD
Length : 6000.002
-1.16
LC#:1
0.48
450
Top : 3 - 16M SFD
50
Bottom : 3 - 16M
1.03
LC#:1
Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_33
BMD
-1.06
LC#:1
Length : 6000
0.51 450
Top : 3 - 16M SFD
50
Bottom : 3 - 16M
1.01
LC#:1
Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_34
BMD
Length : 6000
-1.31
LC#:1
0.53
450
Top : 3 - 16M SFD
50
Bottom : 3 - 16M
1.09
LC#:1
Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_35
BMD
Length : 6000
-1.21
LC#:1
0.49
450
Top : 3 - 16M SFD
50
Bottom : 3 - 16M
1.05
LC#:1
Side : 2 1 - 16M
50
Stirrup : 10M @ 200 300 50
Girder_36
BMD
Length : 4999.999
-0.99
LC#:1
0.35
450
Top : 3 - 16M 50
Bottom : 3 - 16M Side : 2 1 - 10M Stirrup : 10M @ 200
Copyright (c) GS E&C. All Rights Reserved
SFD
0.94
LC#:1
11/18/2009
Calculation Sheet of Foundation
I..
50
I..
BMD
Girder_37
300 50
Length : 6000.002
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
-1.26
Page 183
LC#:1
0.49
450
Top : 3 - 16M SFD
50
Bottom : 3 - 16M
1.07
LC#:1
Side : 2 1 - 16M
50
Stirrup : 10M @ 200 BMD
Girder_38
300 50
Length : 6000
-1.17
LC#:1
0.49
450
Top : 3 - 16M SFD
50
Bottom : 3 - 16M
1.04
LC#:1
Side : 2 1 - 16M Stirrup : 10M @ 200
7.3 MEMBER FORCE - Sturcture 1
Unit (tonf , tonf-m)
Name
L.Comb.
Ra
Rb
Ma
Mb
Vmax
Mmax(-)
Mmax(+)
Girder_1
1
-1.09
0.85
-1.32
-0.61
-1.09
-1.32
0.513
Girder_2
1
-1.12
0.83
-1.41
-0.54
-1.12
-1.41
0.526
Girder_3
1
-1
0.62
-1.16
-0.2
-1
-1.16
0.383
Girder_4
1
-1.1
0.84
-1.36
-0.57
-1.1
-1.36
0.507
Girder_5
1
-1.14
0.81
-1.46
-0.48
-1.14
-1.46
0.546
Girder_6
1
-0.98
1.23
-0.81
-1.66
1.23
-1.66
0.672
Girder_7
1
-1.09
1.12
-1.19
-1.29
1.12
-1.29
0.643
Girder_8
1
-1.15
1.05
-1.41
-1.06
-1.15
-1.41
0.631
Girder_9
1
-1.03
1.18
-0.99
-1.49
1.18
-1.49
0.647
Girder_10
1
-1.09
1.11
-1.2
-1.28
1.11
-1.28
0.633
Girder_11
1
-1.2
1
-1.58
-0.9
-1.2
-1.58
0.642
Girder_12
1
-0.61
1.01
-0.19
-1.17
1.01
-1.17
0.384
Girder_13
1
-0.82
0.8
-0.7
-0.66
-0.82
-0.7
0.338
Girder_14
1
-0.93
0.69
-0.99
-0.37
-0.93
-0.99
0.345
Girder_15
1
-0.69
0.93
-0.39
-0.97
0.93
-0.97
0.345
Girder_16
1
-0.82
0.8
-0.72
-0.65
-0.82
-0.72
0.318
Girder_17
1
-1.02
0.6
-1.2
-0.17
-1.02
-1.2
0.406
Girder_18
1
-1
1.2
-0.9
-1.59
1.2
-1.59
0.643
Girder_19
1
-1.11
1.09
-1.26
-1.21
-1.11
-1.26
0.641
Girder_20
1
-1.18
1.02
-1.5
-0.96
-1.18
-1.5
0.649
Girder_21
1
-1.04
1.16
-1.04
-1.44
1.16
-1.44
0.629
Girder_22
1
-1.11
1.09
-1.28
-1.2
-1.11
-1.28
0.621
Girder_23
1
-1.22
0.98
-1.65
-0.81
-1.22
-1.65
0.647
Girder_24
1
-0.84
1.11
-0.56
-1.36
1.11
-1.36
0.529
Girder_25
1
-0.87
1.07
-0.67
-1.28
1.07
-1.28
0.498
Girder_26
1
-0.64
0.98
-0.26
-1.1
0.98
-1.1
0.372
Copyright (c) GS E&C. All Rights Reserved
11/18/2009
Calculation Sheet of Foundation
I.. I..
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 184
Girder_27
1
-0.86
1.09
-0.62
-1.31
1.09
-1.31
0.521
Girder_28
1
-0.88
1.06
-0.71
-1.24
1.06
-1.24
0.485
Girder_29
1
-0.9
1.05
-0.75
-1.2
1.05
-1.2
0.5
Girder_30
1
-0.92
1.02
-0.81
-1.11
1.02
-1.11
0.496
Girder_31
1
-0.75
0.87
-0.52
-0.84
0.87
-0.84
0.348
Girder_32
1
-0.91
1.03
-0.8
-1.16
1.03
-1.16
0.478
Girder_33
1
-0.94
1.01
-0.85
-1.06
1.01
-1.06
0.514
Girder_34
1
-0.86
1.09
-0.61
-1.31
1.09
-1.31
0.531
Girder_35
1
-0.89
1.05
-0.73
-1.21
1.05
-1.21
0.492
Girder_36
1
-0.68
0.94
-0.36
-0.99
0.94
-0.99
0.354
Girder_37
1
-0.87
1.07
-0.68
-1.26
1.07
-1.26
0.488
Girder_38
1
-0.9
1.04
-0.76
-1.17
1.04
-1.17
0.49
7.4 REQUIRED REINFORCEMENT - Sturcture 1 - Girder_1
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
0.922
1.229
3.837
3.256
1.229
6.03
19.642
OK
Bottom
1.215
0.357
0.476
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_2
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
0.986
1.314
3.837
3.256
1.314
6.03
19.642
OK
Bottom
1.215
0.365
0.487
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_3
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
0.81
1.079
3.837
3.256
1.215
6.03
19.642
OK
Bottom
1.215
0.266
0.355
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_4
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
0.951
1.267
3.837
3.256
1.267
6.03
19.642
OK
Bottom
1.215
0.353
0.47
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_5
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
1.021
1.361
3.837
3.256
1.361
6.03
19.642
OK
Bottom
1.215
0.379
0.505
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_6
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
1.163
1.55
3.837
3.256
1.55
6.03
19.642
OK
Bottom
1.215
0.468
0.623
3.837
3.256
1.215
6.03
19.642
OK
1
Copyright (c) GS E&C. All Rights Reserved
11/18/2009
Calculation Sheet of Foundation
I.. I..
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 185
- Girder_7
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
0.901
1.201
3.837
3.256
1.215
6.03
19.642
OK
Bottom
1.215
0.448
0.597
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_8
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
0.986
1.314
3.837
3.256
1.314
6.03
19.642
OK
Bottom
1.215
0.439
0.585
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_9
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
1.042
1.389
3.837
3.256
1.389
6.03
19.642
OK
Bottom
1.215
0.45
0.6
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_10
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
0.894
1.192
3.837
3.256
1.215
6.03
19.642
OK
Bottom
1.215
0.441
0.587
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_11
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
1.106
1.474
3.837
3.256
1.474
6.03
19.642
OK
Bottom
1.215
0.447
0.595
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_12
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
0.817
1.089
3.837
3.256
1.215
6.03
19.642
OK
Bottom
1.215
0.267
0.356
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_13
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
0.487
0.649
3.837
3.256
1.215
6.03
19.642
OK
Bottom
1.215
0.234
0.312
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_14
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
0.69
0.92
3.837
3.256
1.215
6.03
19.642
OK
Bottom
1.215
0.239
0.319
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_15
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
0.676
0.901
3.837
3.256
1.215
6.03
19.642
OK
Bottom
1.215
0.239
0.319
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_16
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
0.501
0.668
3.837
3.256
1.215
6.03
19.642
OK
Bottom
1.215
0.22
0.294
3.837
3.256
1.215
6.03
19.642
OK
1
Copyright (c) GS E&C. All Rights Reserved
11/18/2009
Calculation Sheet of Foundation
I.. I..
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 186
- Girder_17
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
0.838
1.117
3.837
3.256
1.215
6.03
19.642
OK
Bottom
1.215
0.282
0.375
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_18
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
1.113
1.484
3.837
3.256
1.484
6.03
19.642
OK
Bottom
1.215
0.447
0.596
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_19
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
0.88
1.173
3.837
3.256
1.215
6.03
19.642
OK
Bottom
1.215
0.446
0.595
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_20
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
1.049
1.399
3.837
3.256
1.399
6.03
19.642
OK
Bottom
1.215
0.451
0.602
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_21
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
1.007
1.342
3.837
3.256
1.342
6.03
19.642
OK
Bottom
1.215
0.438
0.583
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_22
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
0.894
1.192
3.837
3.256
1.215
6.03
19.642
OK
Bottom
1.215
0.432
0.576
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_23
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
1.156
1.54
3.837
3.256
1.54
6.03
19.642
OK
Bottom
1.215
0.45
0.6
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_24
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
0.951
1.267
3.837
3.256
1.267
6.03
19.642
OK
Bottom
1.215
0.368
0.49
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_25
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
0.894
1.192
3.837
3.256
1.215
6.03
19.642
OK
Bottom
1.215
0.346
0.461
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_26
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
0.767
1.023
3.837
3.256
1.215
6.03
19.642
OK
Bottom
1.215
0.258
0.344
3.837
3.256
1.215
6.03
19.642
OK
1
Copyright (c) GS E&C. All Rights Reserved
11/18/2009
Calculation Sheet of Foundation
I.. I..
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 187
- Girder_27
( cm2 )
L.Comb.
As1
As2
Top
1.215
Bottom
1.215
Asselect
Asused
Asmax
Result
3.256
1.22
6.03
19.642
OK
3.256
1.215
6.03
19.642
OK
As3
As4
As5
0.915
1.22
3.837
0.362
0.483
3.837
1
- Girder_28
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
0.866
1.154
3.837
3.256
1.215
6.03
19.642
OK
Bottom
1.215
0.337
0.449
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_29
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
0.838
1.117
3.837
3.256
1.215
6.03
19.642
OK
Bottom
1.215
0.347
0.463
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_30
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
0.774
1.032
3.837
3.256
1.215
6.03
19.642
OK
Bottom
1.215
0.345
0.46
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_31
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
0.585
0.78
3.837
3.256
1.215
6.03
19.642
OK
Bottom
1.215
0.242
0.322
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_32
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
0.81
1.079
3.837
3.256
1.215
6.03
19.642
OK
Bottom
1.215
0.332
0.443
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_33
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
0.739
0.986
3.837
3.256
1.215
6.03
19.642
OK
Bottom
1.215
0.357
0.476
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_34
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
0.915
1.22
3.837
3.256
1.22
6.03
19.642
OK
Bottom
1.215
0.369
0.492
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_35
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
0.845
1.126
3.837
3.256
1.215
6.03
19.642
OK
Bottom
1.215
0.342
0.456
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_36
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
0.69
0.92
3.837
3.256
1.215
6.03
19.642
OK
Bottom
1.215
0.245
0.327
3.837
3.256
1.215
6.03
19.642
OK
1
Copyright (c) GS E&C. All Rights Reserved
11/18/2009 Project Na. : Perencanaan Pondasi Graha
Calculation Sheet of Foundation
I.. I..
Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 188
- Girder_37
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
0.88
1.173
3.837
3.256
1.215
6.03
19.642
OK
Bottom
1.215
0.339
0.452
3.837
3.256
1.215
6.03
19.642
OK
1
- Girder_38
( cm2 )
L.Comb.
As1
As2
As3
As4
As5
Asselect
Asused
Asmax
Result
Top
1.215
0.817
1.089
3.837
3.256
1.215
6.03
19.642
OK
Bottom
1.215
0.34
0.454
3.837
3.256
1.215
6.03
19.642
OK
1
7.5 ONE WAY SHEAR - Sturcture 1
( tonf , cm2 )
Name
L.Com
Vu
φVc
φVs
φVn
φVsmax
Asvuse
Asvreq
Result
Girder_1
1
1.09
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_2
1
1.12
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_3
1
1
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_4
1
1.1
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_5
1
1.14
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_6
1
1.23
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_7
1
1.12
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_8
1
1.15
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_9
1
1.18
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_10
1
1.11
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_11
1
1.2
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_12
1
1.01
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_13
1
0.82
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_14
1
0.93
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_15
1
0.93
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_16
1
0.82
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_17
1
1.02
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_18
1
1.2
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_19
1
1.11
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_20
1
1.18
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_21
1
1.16
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_22
1
1.11
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_23
1
1.22
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_24
1
1.11
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_25
1
1.07
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_26
1
0.98
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_27
1
1.09
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_28
1
1.06
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_29
1
1.05
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_30
1
1.02
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_31
1
0.87
8.012
11.075
19.087
32.049
1.571
0
OK
Copyright (c) GS E&C. All Rights Reserved
11/18/2009 Project Na. : Perencanaan Pondasi Graha
Calculation Sheet of Foundation
I.. I..
Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 189
Girder_32
1
1.03
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_33
1
1.01
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_34
1
1.09
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_35
1
1.05
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_36
1
0.94
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_37
1
1.07
8.012
11.075
19.087
32.049
1.571
0
OK
Girder_38
1
1.04
8.012
11.075
19.087
32.049
1.571
0
OK
- Shear Reinforcement Space Check - Sturcture 1
( mm )
Name
Using Space
Max Space
Result
Girder_1
200
197.5
NG
Girder_2
200
197.5
NG
Girder_3
200
197.5
NG
Girder_4
200
197.5
NG
Girder_5
200
197.5
NG
Girder_6
200
197.5
NG
Girder_7
200
197.5
NG
Girder_8
200
197.5
NG
Girder_9
200
197.5
NG
Girder_10
200
197.5
NG
Girder_11
200
197.5
NG
Girder_12
200
197.5
NG
Girder_13
200
197.5
NG
Girder_14
200
197.5
NG
Girder_15
200
197.5
NG
Girder_16
200
197.5
NG
Girder_17
200
197.5
NG
Girder_18
200
197.5
NG
Girder_19
200
197.5
NG
Girder_20
200
197.5
NG
Girder_21
200
197.5
NG
Girder_22
200
197.5
NG
Girder_23
200
197.5
NG
Girder_24
200
197.5
NG
Girder_25
200
197.5
NG
Girder_26
200
197.5
NG
Girder_27
200
197.5
NG
Girder_28
200
197.5
NG
Girder_29
200
197.5
NG
Girder_30
200
197.5
NG
Girder_31
200
197.5
NG
Girder_32
200
197.5
NG
Girder_33
200
197.5
NG
Girder_34
200
197.5
NG
Copyright (c) GS E&C. All Rights Reserved
11/18/2009
Calculation Sheet of Foundation
I.. I..
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Girder_35
200
197.5
NG
Girder_36
200
197.5
NG
Girder_37
200
197.5
NG
Girder_38
200
197.5
NG
Copyright (c) GS E&C. All Rights Reserved
Page 190
COLUMN CALCULATION SHEET FOR PM DIAGRAM ANALYSIS
TITLE
DESCRIPTION
PROJECT/JOB NO.
Perencanaan Pondasi Graha ISTN
PROJECT/JOB NAME
Perencanaan Pondasi Graha ISTN
CLIENT NAME
Institut Sains dan Teknologi Nasional
SITE NAME
Jakarta Selatan - Indonesia
DOCUMENT NO. REFERENCE NO. STRUCTURE NAME
ISO SAMPLE
GROUP NAME LOADCOMBINATION GROUP NAME REV
DATE
DESCRIPTION
Copyright (c) GS E&C. All Rights Reserved
PRep'D
CHK'D
APPR'D
APPR'D
11/18/2009
Calculation Sheet of Pier
I.. I..
CONTENTS 1. GENERAL 2. FRAME ANALYSIS 3. INPUT DATA 4. PM DIAGRAM & ANALYSIS 5. LOAD COMBINATION 6. FORMULA 7. ANALYSIS & RESULT 8. Detail PM Diagram
Copyright (c) GS E&C. All Rights Reserved
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 1
11/18/2009
Calculation Sheet of Pier
I.. I..
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
1. General Design Code
American Concrete Institute (ACI 318) [Metric]
f Bending
0.9
fck
225 kgf/cm
f Axial
0.85
fy (10M ~ 16M)
4200 kgf/cm
f Sprial reinf.
0.75
fy (19M ~)
4200 kgf/cm
f Tied reinf.
0.7
Ec
250998 kgf/cm
f Shear
0.85
Es
2000000 kgf/cm
Steel Db
ASTM A615 (M)
Cover
50 mm
Input Unit
MKS
Output Unit
MKS
Copyright (c) GS E&C. All Rights Reserved
2
2
2
2
2
Page 2
11/18/2009
Calculation Sheet of Pier
Project Na. : Perencanaan Pondasi Graha I... Project No. : Perencanaan Pondasi Graha I... Client : Institut Sains da...
2. GENERAL 2.1 FRAME DRAWING Sturcture 1
(P23) 57 81 96 (Girder_24) (P24) 56 80 60 84 97 (Girder_25) (P25) 59 83 55 79 90 (Girder_18) 63 87 86 19 82 (P26) 66 90 6298 (Girder_26) 58 91 (Girder_19) 63 (P16) 39 62 20 85 99 (Girder_27) (P27) 65 89 69 93 61 92 (Girder_20) 101 (Girder_29) 66 (P17) 92 38 42 65 88 21 93 (Girder_21) (P28) 68 100 (Girder_28) 64 72 96 84 (Girder_12) 61 102 (Girder_30) (P18) 95 41 37 45 69 22 91 (P10) 71 68 67 94 (Girder_22) 21 45 85 (Girder_13) 13 64 72 (P19) 103 (Girder_31) 48 71 44 44 40 23 (P11) 20 106 (Girder_34) 70 94 95 (Girder_23) 24 48 86 (Girder_14) 14 67 (P21) 47 104 (Girder_32) 51 75 43 24 74 107 (Girder_35) (P12) 23 47 87 (Girder_15) 19 43 70 78 (Girder_6) 27 51 15 (P22) 50 105 (Girder_33) 54 78 50 (Girder_36) 7 46 5446 (P13) 108 77 30 88 (Girder_16) 26 16 22 73 79 (Girder_7) (P4) 53 49 3 27 8 109 (Girder_37) (P14) 29 53 26 33 57 89 (Girder_17) 17 25 49 76 80 (Girder_8) 56 2 73 (Girder_1) 6 30 (P5) 52 52 9 110 (Girder_38) 60 (P15) 32 29 28 81 (Girder_9) 36 18 59 5 74 (Girder_2) 9 33 (P6) 1 25 10 35 32 31 55 82 (Girder_10) 1 28 36 (P7) 75 (Girder_3) 12 8 4 11 35 34 58 83 (Girder_11) 2 11 76 (Girder_4)15 39 (P8) 7 31 12 3 14 3877 (Girder_5)18 42 (P9) 10 34 41 4 37 17 13 5 16 40 6
Z
Y X
Copyright (c) GS E&C. All Rights Reserved
Page 3
11/18/2009
Calculation Sheet of Pier
I.. I..
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 4
2.2 FRAME ANALYSIS DATA (Staad Analysis) 2.2.1 Structure 1 Member and Force
Member 73
74
75
76
77
78
79
80
81
82
83
84
85
86
87
88
89
90
91
92
Unit ( tonf,tonf-m )
LC#
Axial
Shear-Y
Shear-Z
Torsion
Moment-Y
Moment-Z
i
-0.38
-1.09
0.17
0.07
0.75
-1.32
j
-0.38
0.85
0.17
0.07
-0.28
-0.61
i
0.09
-1.12
-0.03
0.04
-0.09
-1.41
j
0.09
0.83
-0.03
0.04
0.09
-0.54
i
0.01
-1
0.11
-0.09
0.28
-1.16
j
0.01
0.62
0.11
-0.09
-0.27
-0.2
i
-0.5
-1.1
-0.02
0.04
-0.07
-1.36
j
-0.5
0.84
-0.02
0.04
0.04
-0.57
i
-0.3
-1.14
-0.03
0.07
-0.09
-1.46
j
-0.3
0.81
-0.03
0.07
0.09
-0.48
i
-0.71
-0.98
0.11
0.11
0.59
-0.81
j
-0.71
1.23
0.11
0.11
-0.17
-1.66
i
-0.49
-1.09
-0.05
0.1
-0.2
-1.19
j
-0.49
1.12
-0.05
0.1
0.18
-1.29
i
-0.86
-1.15
-0.06
0.1
-0.21
-1.41
j
-0.86
1.05
-0.06
0.1
0.21
-1.06
i
-0.31
-1.03
-0.06
0.1
-0.21
-0.99
j
-0.31
1.18
-0.06
0.1
0.21
-1.49
i
-0.55
-1.09
-0.04
0.1
-0.15
-1.2
j
-0.55
1.11
-0.04
0.1
0.16
-1.28
i
-0.56
-1.2
-0.05
0.1
-0.16
-1.58
j
-0.56
1
-0.05
0.1
0.17
-0.9
i
-0.3
-0.61
0.03
-0.03
0.07
-0.19
1
1
1
1
1
1
1
1
1
1
1
1 j
-0.3
1.01
0.03
-0.03
-0.09
-1.17
i
-0.07
-0.82
0.05
-0.01
0.13
-0.7
j
-0.07
0.8
0.05
-0.01
-0.11
-0.66
i
-0.27
-0.93
0.02
-0.03
0.05
-0.99
j
-0.27
0.69
0.02
-0.03
-0.04
-0.37
i
0.05
-0.69
0.02
-0.03
0.05
-0.39
j
0.05
0.93
0.02
-0.03
-0.04
-0.97
i
-0.11
-0.82
0.05
-0.01
0.12
-0.72
j
-0.11
0.8
0.05
-0.01
-0.11
-0.65
i
0.02
-1.02
0.05
-0.03
0.12
-1.2
j
0.02
0.6
0.05
-0.03
-0.11
-0.17
i
-0.24
-1
-0.01
0.03
-0.03
-0.9
j
-0.24
1.2
-0.01
0.03
0.03
-1.59
i
-0.54
-1.11
0
0.02
-0.01
-1.26
j
-0.54
1.09
0
0.02
0
-1.21
i
-0.92
-1.18
-0.02
0.03
-0.08
-1.5
j
-0.92
1.02
-0.02
0.03
0.08
-0.96
1
1
1
1
1
1
1
1
Copyright (c) GS E&C. All Rights Reserved
11/18/2009 Project Na. : Perencanaan Pondasi Graha
Calculation Sheet of Pier
I.. I..
93
94
95
96
97
98
99
100
101
102
103
104
105
106
107
108
109
110
Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 5
i
-0.27
-1.04
-0.02
0.03
-0.08
-1.04
j
-0.27
1.16
-0.02
0.03
0.08
-1.44
i
-0.63
-1.11
0
0.02
-0.01
-1.28
j
-0.63
1.09
0
0.02
0
-1.2
i
-0.96
-1.22
-0.01
0.03
-0.04
-1.65
j
-0.96
0.98
-0.01
0.03
0.03
-0.81
i
-0.92
-0.84
-0.04
0.07
-0.12
-0.56
j
-0.92
1.11
-0.04
0.07
0.12
-1.36
i
0.15
-0.87
-0.03
0.05
-0.08
-0.67
j
0.15
1.07
-0.03
0.05
0.11
-1.28
i
0.04
-0.64
0.11
-0.11
0.28
-0.26
1
1
1
1
1
1 j
0.04
0.98
0.11
-0.11
-0.28
-1.1
i
-0.63
-0.86
-0.03
0.05
-0.11
-0.62
j
-0.63
1.09
-0.03
0.05
0.08
-1.31
i
0.14
-0.88
-0.04
0.07
-0.12
-0.71
j
0.14
1.06
-0.04
0.07
0.13
-1.24
i
0.25
-0.9
-0.05
0.07
-0.14
-0.75
j
0.25
1.05
-0.05
0.07
0.14
-1.2
i
-0.74
-0.92
-0.03
0.04
-0.09
-0.81
j
-0.74
1.02
-0.03
0.04
0.11
-1.11
i
-0.06
-0.75
0.1
-0.1
0.26
-0.52
j
-0.06
0.87
0.1
-0.1
-0.26
-0.84
i
0.3
-0.91
-0.03
0.04
-0.11
-0.8
j
0.3
1.03
-0.03
0.04
0.09
-1.16
i
-1
-0.94
-0.05
0.07
-0.13
-0.85
j
-1
1.01
-0.05
0.07
0.14
-1.06
i
-0.6
-0.86
-0.05
0.07
-0.16
-0.61
j
-0.6
1.09
-0.05
0.07
0.13
-1.31
i
-0.35
-0.89
-0.02
0.04
-0.06
-0.73
j
-0.35
1.05
-0.02
0.04
0.08
-1.21
i
-0.04
-0.68
0.11
-0.1
0.28
-0.36
j
-0.04
0.94
0.11
-0.1
-0.28
-0.99
i
-0.16
-0.87
-0.02
0.04
-0.09
-0.68
j
-0.16
1.07
-0.02
0.04
0.06
-1.26
i
-0.26
-0.9
-0.04
0.07
-0.11
-0.76
j
-0.26
1.04
-0.04
0.07
0.12
-1.17
1
1
1
1
1
1
1
1
1
1
1
1
Support Reactions
Unit ( tonf,tonf-m )
Joint
LC#
Force-X
Force-Y
Force-Z
Moment-X
Moment-Y
Moment-Z
1
1
2.54
-1.3
-148.33
6.6
-6.43
-4.85
2
1
1.85
0.67
-216.11
0.03
-6.3
-0.01
3
1
2.1
1.71
-191.5
-3.48
-6.37
-0.03
4
1
2.52
-0.54
-191.75
3.67
-6.57
0
5
1
2.11
0.6
-216.09
-0.03
-6.64
-0.28
6
1
1.69
2.38
-148.39
-6.27
-6.59
-0.25
Copyright (c) GS E&C. All Rights Reserved
11/18/2009 Project Na. : Perencanaan Pondasi Graha
Calculation Sheet of Pier
I.. I..
Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 6
7
1
-0.52
-2.4
-200.21
6.7
4.1
0.08
8
1
-1.18
-0.45
-274.28
0.27
4.09
-0.24
9
1
-1.24
0.58
-233.39
-3.45
3.94
0.03
10
1
-0.82
-1.52
-233.23
3.95
3.72
0.02
11
1
-0.85
-0.42
-274.23
0.13
3.65
-0.21
12
1
-1.23
1.42
-199.86
-6.15
3.69
-0.17
13
1
-0.35
-1.77
-187.16
6.27
2.27
-0.08
14
1
-0.04
0.46
-244.39
-0.2
2.25
-0.12
15
1
-0.94
1.71
-223.79
-4.12
2.29
0.1
16
1
-0.56
-0.76
-218.51
3.61
2.09
0.11
17
1
0.26
0.53
-244.3
-0.38
1.84
-0.13
18
1
-1.14
2.69
-187.25
-6.75
1.99
-0.08
19
1
-0.53
-2.24
-150.68
6.35
4.94
-0.17
20
1
-1.91
-0.58
-216.81
-0.02
5.12
-0.2
21
1
-1.34
0.32
-190.13
-4.01
4.92
0.1
22
1
-0.85
-1.52
-189.74
3.82
4.69
0.07
23
1
-1.63
-0.59
-216.84
-0.21
4.74
-0.2
24
1
-1.32
1.03
-150.68
-6.53
4.66
-0.14
3. Input Data
50
700
700
Footing Name
F1
Pier Name
4
Length
700 mm
Width
700 mm
Height
1500 mm 2
22M , 5-5-16 , Area = 60.821cm
Main Bar
2
2
Amin (1%) = 49cm , Amax (8%) = 392cm Reinforcrment Area is OK
50
700
700
Hoop Bar
10M @ 200.000 mm
Footing Name
F2
Pier Name
5
Length
700 mm
Width
700 mm
Height
1500 mm 2
22M , 5-5-16 , Area = 60.821cm
Main Bar
2
Reinforcrment Area is OK
Hoop Bar
Copyright (c) GS E&C. All Rights Reserved
2
Amin (1%) = 49cm , Amax (8%) = 392cm
10M @ 200.000 mm
11/18/2009
Calculation Sheet of Pier
I.. I..
50
700
700
Footing Name
F3
Pier Name
6
Length
700 mm
Width
700 mm
Height
1500 mm
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
2
22M , 5-5-16 , Area = 60.821cm
Main Bar
2
2
Amin (1%) = 49cm , Amax (8%) = 392cm Reinforcrment Area is OK
50
700
700
Hoop Bar
10M @ 200.000 mm
Footing Name
F4
Pier Name
7
Length
700 mm
Width
700 mm
Height
1500 mm 2
22M , 5-5-16 , Area = 60.821cm
Main Bar
2
2
Amin (1%) = 49cm , Amax (8%) = 392cm Reinforcrment Area is OK
50
700
700
Hoop Bar
10M @ 200.000 mm
Footing Name
F5
Pier Name
8
Length
700 mm
Width
700 mm
Height
1500 mm 2
22M , 5-5-16 , Area = 60.821cm
Main Bar
2
2
Amin (1%) = 49cm , Amax (8%) = 392cm Reinforcrment Area is OK
50
700
700
Hoop Bar
10M @ 200.000 mm
Footing Name
F6
Pier Name
9
Length
700 mm
Width
700 mm
Height
1500 mm 2
22M , 5-5-16 , Area = 60.821cm
Main Bar
2
Reinforcrment Area is OK
Hoop Bar
Copyright (c) GS E&C. All Rights Reserved
2
Amin (1%) = 49cm , Amax (8%) = 392cm
10M @ 200.000 mm
Page 7
11/18/2009
Calculation Sheet of Pier
I.. I..
50
700
700
Footing Name
F7
Pier Name
10
Length
700 mm
Width
700 mm
Height
1500 mm
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
2
22M , 5-5-16 , Area = 60.821cm
Main Bar
2
2
Amin (1%) = 49cm , Amax (8%) = 392cm Reinforcrment Area is OK
50
700
700
Hoop Bar
10M @ 200.000 mm
Footing Name
F8
Pier Name
11
Length
700 mm
Width
700 mm
Height
1500 mm 2
22M , 5-5-16 , Area = 60.821cm
Main Bar
2
2
Amin (1%) = 49cm , Amax (8%) = 392cm Reinforcrment Area is OK
50
700
700
Hoop Bar
10M @ 200.000 mm
Footing Name
F9
Pier Name
12
Length
700 mm
Width
700 mm
Height
1500 mm 2
22M , 5-5-16 , Area = 60.821cm
Main Bar
2
2
Amin (1%) = 49cm , Amax (8%) = 392cm Reinforcrment Area is OK
50
700
700
Hoop Bar
10M @ 200.000 mm
Footing Name
F10
Pier Name
13
Length
700 mm
Width
700 mm
Height
1500 mm 2
22M , 5-5-16 , Area = 60.821cm
Main Bar
2
Reinforcrment Area is OK
Hoop Bar
Copyright (c) GS E&C. All Rights Reserved
2
Amin (1%) = 49cm , Amax (8%) = 392cm
10M @ 200.000 mm
Page 8
11/18/2009
Calculation Sheet of Pier
I.. I..
50
700
700
Footing Name
F11
Pier Name
14
Length
700 mm
Width
700 mm
Height
1500 mm
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
2
22M , 5-5-16 , Area = 60.821cm
Main Bar
2
2
Amin (1%) = 49cm , Amax (8%) = 392cm Reinforcrment Area is OK
50
700
700
Hoop Bar
10M @ 200.000 mm
Footing Name
F12
Pier Name
15
Length
700 mm
Width
700 mm
Height
1500 mm 2
22M , 5-5-16 , Area = 60.821cm
Main Bar
2
2
Amin (1%) = 49cm , Amax (8%) = 392cm Reinforcrment Area is OK
50
700
700
Hoop Bar
10M @ 200.000 mm
Footing Name
F13
Pier Name
16
Length
700 mm
Width
700 mm
Height
1500 mm 2
22M , 5-5-16 , Area = 60.821cm
Main Bar
2
2
Amin (1%) = 49cm , Amax (8%) = 392cm Reinforcrment Area is OK
50
700
700
Hoop Bar
10M @ 200.000 mm
Footing Name
F14
Pier Name
17
Length
700 mm
Width
700 mm
Height
1500 mm 2
22M , 5-5-16 , Area = 60.821cm
Main Bar
2
Reinforcrment Area is OK
Hoop Bar
Copyright (c) GS E&C. All Rights Reserved
2
Amin (1%) = 49cm , Amax (8%) = 392cm
10M @ 200.000 mm
Page 9
11/18/2009
Calculation Sheet of Pier
I.. I..
50
700
700
Footing Name
F15
Pier Name
18
Length
700 mm
Width
700 mm
Height
1500 mm
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
2
22M , 5-5-16 , Area = 60.821cm
Main Bar
2
2
Amin (1%) = 49cm , Amax (8%) = 392cm Reinforcrment Area is OK
50
700
700
Hoop Bar
10M @ 200.000 mm
Footing Name
F16
Pier Name
19
Length
700 mm
Width
700 mm
Height
1500 mm 2
22M , 5-5-16 , Area = 60.821cm
Main Bar
2
2
Amin (1%) = 49cm , Amax (8%) = 392cm Reinforcrment Area is OK
50
700
700
Hoop Bar
10M @ 200.000 mm
Footing Name
F17
Pier Name
21
Length
700 mm
Width
700 mm
Height
1500 mm 2
22M , 5-5-16 , Area = 60.821cm
Main Bar
2
2
Amin (1%) = 49cm , Amax (8%) = 392cm Reinforcrment Area is OK
50
700
700
Hoop Bar
10M @ 200.000 mm
Footing Name
F18
Pier Name
22
Length
700 mm
Width
700 mm
Height
1500 mm 2
22M , 5-5-16 , Area = 60.821cm
Main Bar
2
Reinforcrment Area is OK
Hoop Bar
Copyright (c) GS E&C. All Rights Reserved
2
Amin (1%) = 49cm , Amax (8%) = 392cm
10M @ 200.000 mm
Page 10
11/18/2009
Calculation Sheet of Pier
I.. I..
50
700
700
Footing Name
F19
Pier Name
23
Length
700 mm
Width
700 mm
Height
1500 mm
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
2
22M , 5-5-16 , Area = 60.821cm
Main Bar
2
2
Amin (1%) = 49cm , Amax (8%) = 392cm Reinforcrment Area is OK
50
700
700
Hoop Bar
10M @ 200.000 mm
Footing Name
F20
Pier Name
24
Length
700 mm
Width
700 mm
Height
1500 mm 2
22M , 5-5-16 , Area = 60.821cm
Main Bar
2
2
Amin (1%) = 49cm , Amax (8%) = 392cm Reinforcrment Area is OK
50
700
700
Hoop Bar
10M @ 200.000 mm
Footing Name
F21
Pier Name
25
Length
700 mm
Width
700 mm
Height
1500 mm 2
22M , 5-5-16 , Area = 60.821cm
Main Bar
2
2
Amin (1%) = 49cm , Amax (8%) = 392cm Reinforcrment Area is OK
50
700
700
Hoop Bar
10M @ 200.000 mm
Footing Name
F22
Pier Name
26
Length
700 mm
Width
700 mm
Height
1500 mm 2
22M , 5-5-16 , Area = 60.821cm
Main Bar
2
Reinforcrment Area is OK
Hoop Bar
Copyright (c) GS E&C. All Rights Reserved
2
Amin (1%) = 49cm , Amax (8%) = 392cm
10M @ 200.000 mm
Page 11
11/18/2009
Calculation Sheet of Pier
I.. I..
700
700
50
Footing Name
F23
Pier Name
27
Length
700 mm
Width
700 mm
Height
1500 mm
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 12
2
22M , 5-5-16 , Area = 60.821cm
Main Bar
2
2
Amin (1%) = 49cm , Amax (8%) = 392cm Reinforcrment Area is OK
700
700
50
Hoop Bar
10M @ 200.000 mm
Footing Name
F24
Pier Name
28
Length
700 mm
Width
700 mm
Height
1500 mm 2
22M , 5-5-16 , Area = 60.821cm
Main Bar
2
2
Amin (1%) = 49cm , Amax (8%) = 392cm Reinforcrment Area is OK
Hoop Bar
10M @ 200.000 mm
4. PM diagram & Analysis 4.1 Pier Name : 4 (tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Axis
X - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Mx
20
40
60
80
100
Copyright (c) GS E&C. All Rights Reserved
120
140
160
11/18/2009
Calculation Sheet of Pier
I.. I..
(tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 13
Axis
Y - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
X - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
Y - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
My
20
40
60
80
100
120
140
160
4.2 Pier Name : 5 (tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Mx
20
40
60
80
100
120
140
160
(tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
My
20
40
60
80
100
Copyright (c) GS E&C. All Rights Reserved
120
140
160
11/18/2009
Calculation Sheet of Pier
I.. I..
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 14
4.3 Pier Name : 6 (tonf , tonf-m )
P 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Axis
X - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
Y - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
X - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Mx
20
40
60
80
100
120
140
160
(tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
My
20
40
60
80
100
120
140
160
4.4 Pier Name : 7 (tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Mx
20
40
60
80
100
Copyright (c) GS E&C. All Rights Reserved
120
140
160
11/18/2009
Calculation Sheet of Pier
I.. I..
(tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 15
Axis
Y - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
X - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
Y - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
My
20
40
60
80
100
120
140
160
4.5 Pier Name : 8 (tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Mx
20
40
60
80
100
120
140
160
(tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
My
20
40
60
80
100
Copyright (c) GS E&C. All Rights Reserved
120
140
160
11/18/2009
Calculation Sheet of Pier
I.. I..
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 16
4.6 Pier Name : 9 (tonf , tonf-m )
P 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Axis
X - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
Y - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
X - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Mx
20
40
60
80
100
120
140
160
(tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
My
20
40
60
80
100
120
140
160
4.7 Pier Name : 10 (tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Mx
20
40
60
80
100
Copyright (c) GS E&C. All Rights Reserved
120
140
160
11/18/2009
Calculation Sheet of Pier
I.. I..
(tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 17
Axis
Y - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
X - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
Y - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
My
20
40
60
80
100
120
140
160
4.8 Pier Name : 11 (tonf , tonf-m )
P 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300 -400
Pnmax fPnmax
Balanced
Mx
20
40
60
80
100
120
160
(tonf , tonf-m )
P 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300 -400
140
Pnmax fPnmax
Balanced
My
20
40
60
80
100
Copyright (c) GS E&C. All Rights Reserved
120
140
160
11/18/2009
Calculation Sheet of Pier
I.. I..
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 18
4.9 Pier Name : 12 (tonf , tonf-m )
P 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Axis
X - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
Y - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
X - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Mx
20
40
60
80
100
120
140
160
(tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
My
20
40
60
80
100
120
140
160
4.10 Pier Name : 13 (tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Mx
20
40
60
80
100
Copyright (c) GS E&C. All Rights Reserved
120
140
160
11/18/2009
Calculation Sheet of Pier
I.. I..
(tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 19
Axis
Y - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
X - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
Y - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
My
20
40
60
80
100
120
140
160
4.11 Pier Name : 14 (tonf , tonf-m )
P 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300 -400
Pnmax fPnmax
Balanced
Mx
20
40
60
80
100
120
160
(tonf , tonf-m )
P 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300 -400
140
Pnmax fPnmax
Balanced
My
20
40
60
80
100
Copyright (c) GS E&C. All Rights Reserved
120
140
160
11/18/2009
Calculation Sheet of Pier
I.. I..
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 20
4.12 Pier Name : 15 (tonf , tonf-m )
P 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Axis
X - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
Y - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
X - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Mx
20
40
60
80
100
120
140
160
(tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
My
20
40
60
80
100
120
140
160
4.13 Pier Name : 16 (tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Mx
20
40
60
80
100
Copyright (c) GS E&C. All Rights Reserved
120
140
160
11/18/2009
Calculation Sheet of Pier
I.. I..
(tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 21
Axis
Y - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
X - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
Y - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
My
20
40
60
80
100
120
140
160
4.14 Pier Name : 17 (tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Mx
20
40
60
80
100
120
140
160
(tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
My
20
40
60
80
100
Copyright (c) GS E&C. All Rights Reserved
120
140
160
11/18/2009
Calculation Sheet of Pier
I.. I..
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 22
4.15 Pier Name : 18 (tonf , tonf-m )
P 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Axis
X - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
Y - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
X - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Mx
20
40
60
80
100
120
140
160
(tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
My
20
40
60
80
100
120
140
160
4.16 Pier Name : 19 (tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Mx
20
40
60
80
100
Copyright (c) GS E&C. All Rights Reserved
120
140
160
11/18/2009
Calculation Sheet of Pier
I.. I..
(tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 23
Axis
Y - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
X - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
Y - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
My
20
40
60
80
100
120
140
160
4.17 Pier Name : 21 (tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Mx
20
40
60
80
100
120
140
160
(tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
My
20
40
60
80
100
Copyright (c) GS E&C. All Rights Reserved
120
140
160
11/18/2009
Calculation Sheet of Pier
I.. I..
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 24
4.18 Pier Name : 22 (tonf , tonf-m )
P 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Axis
X - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
Y - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
X - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Mx
20
40
60
80
100
120
140
160
(tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
My
20
40
60
80
100
120
140
160
4.19 Pier Name : 23 (tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Mx
20
40
60
80
100
Copyright (c) GS E&C. All Rights Reserved
120
140
160
11/18/2009
Calculation Sheet of Pier
I.. I..
(tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 25
Axis
Y - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
X - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
Y - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
My
20
40
60
80
100
120
140
160
4.20 Pier Name : 24 (tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Mx
20
40
60
80
100
120
140
160
(tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
My
20
40
60
80
100
Copyright (c) GS E&C. All Rights Reserved
120
140
160
11/18/2009
Calculation Sheet of Pier
I.. I..
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 26
4.21 Pier Name : 25 (tonf , tonf-m )
P 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Axis
X - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
Y - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
X - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Mx
20
40
60
80
100
120
140
160
(tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
My
20
40
60
80
100
120
140
160
4.22 Pier Name : 26 (tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Mx
20
40
60
80
100
Copyright (c) GS E&C. All Rights Reserved
120
140
160
11/18/2009
Calculation Sheet of Pier
I.. I..
(tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 27
Axis
Y - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
X - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
Y - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
My
20
40
60
80
100
120
140
160
4.23 Pier Name : 27 (tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Mx
20
40
60
80
100
120
140
160
(tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
My
20
40
60
80
100
Copyright (c) GS E&C. All Rights Reserved
120
140
160
11/18/2009
Calculation Sheet of Pier
I.. I..
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 28
4.24 Pier Name : 28 (tonf , tonf-m )
P 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
Axis
X - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Axis
Y - Axis (All comb.)
Po
1180.924 tonf
Pn / fPn
1003.785 tonf / 702.650 tonf
Mn / fMn
51.45 tonf-m / 36.02 tonf-m
Pb / fPb
428.448 tonf / 299.914 tonf
Mb / fM
130.5 tonf-m / 91.35 tonf-m
c(Balanced)
370 mm
emin
36.24 mm
klu / rx
14.29
Slender
Neglect
Mx
20
40
60
80
100
120
140
160
(tonf , tonf-m )
P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
Pnmax fPnmax
Balanced
My
20
40
60
80
100
120
140
160
5. Load Combination 5.1 Load Combination in Pier Top (Global) Pier Name
L.Comb.
SFx
SFy
SFz
SMx
SMy
4
1
-2.045
1.843
152.166
-2.617
-2.255
5
1
-2.376
0.022
220.931
-0.009
-2.702
6
1
-2.078
-0.990
196.248
1.444
-2.258
7
1
-2.075
0.978
196.267
-1.365
-2.244
8
1
-2.366
-0.033
220.920
0.086
-2.654
9
1
-2.031
-1.853
152.160
2.692
-2.177
10
1
1.043
2.037
204.671
-2.909
2.170
11
1
1.027
0.007
279.963
-0.005
2.164
12
1
1.014
-1.296
238.875
1.863
2.162
13
1
1.021
1.289
238.679
-1.818
2.182
14
1
1.039
-0.011
279.901
0.045
2.215
Copyright (c) GS E&C. All Rights Reserved
11/18/2009
Calculation Sheet of Pier
I.. I..
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 29
15
1
1.060
-2.041
204.678
2.950
2.252
16
1
0.067
1.761
191.824
-2.532
0.784
17
1
0.971
-0.003
250.036
-0.005
2.091
18
1
0.212
-1.195
229.192
1.703
1.027
19
1
0.163
1.216
224.030
-1.719
0.972
21
1
0.983
0.005
249.944
0.017
2.143
22
1
0.085
-1.761
191.852
2.547
0.866
23
1
1.454
2.036
154.484
-2.958
2.764
24
1
0.850
0.036
221.643
-0.084
1.923
25
1
1.473
-1.387
194.638
1.964
2.831
26
1
1.535
1.396
194.496
-1.986
2.932
27
1
0.860
-0.026
221.662
0.061
1.972
28
1
1.468
-2.030
154.488
2.940
2.840
5.2 Load Combination in Pier Bottom (Local) Pier Name
L.Comb.
SFx
SFy
SFz
SMx
SMy
4
1
-2.540
1.300
-148.330
-4.520
10.494
5
1
-1.850
-0.670
-216.110
-1.102
9.260
6
1
-2.100
-1.710
-191.500
0.744
9.730
7
1
-2.520
0.540
-191.750
-2.806
10.602
8
1
-2.110
-0.600
-216.090
-0.930
10.016
9
1
-1.690
-2.380
-148.390
2.462
9.294
10
1
0.520
2.400
-200.210
-2.860
-4.932
11
1
1.180
0.450
-274.280
0.450
-5.978
12
1
1.240
-0.580
-233.390
2.522
-5.924
13
1
0.820
1.520
-233.230
-1.518
-5.032
14
1
0.850
0.420
-274.230
0.542
-5.010
15
1
1.230
-1.420
-199.860
3.878
-5.658
16
1
0.350
1.770
-187.160
-3.438
-2.830
17
1
0.040
-0.460
-244.390
-0.536
-2.314
18
1
0.940
-1.710
-223.790
1.384
-3.794
19
1
0.560
0.760
-218.510
-2.394
-2.986
21
1
-0.260
-0.530
-244.300
-0.468
-1.424
22
1
1.140
-2.690
-187.250
2.446
-3.814
23
1
0.530
2.240
-150.680
-2.766
-5.788
24
1
1.910
0.580
-216.810
0.948
-8.176
25
1
1.340
-0.320
-190.130
3.498
-7.064
26
1
0.850
1.520
-189.740
-1.388
-6.050
27
1
1.630
0.590
-216.840
1.154
-7.348
28
1
1.320
-1.030
-150.680
4.882
-6.772
Copyright (c) GS E&C. All Rights Reserved
11/18/2009
Calculation Sheet of Pier
I.. I..
6. Formula 1) Maximum Axial Load Strength - Po = 0.85 fck (Ag-Ast) + S fy Ast - Pnmax = f1 Po ( f1 = Axial Strenth Resuction Factiors) - Mnmax = The Value of diagram, When P is Pn. - Pumax = f2 Pnmax f2 = Sprial or Tied Reinforcement Reduction Factor
2) Balanced Strain Condition A balanced Strain condition exists at a cross-setion when the maximum strain at the extreme compression fiber just reaches eu = 0.003 simultaneously with the first yield strain of es = fy/Es in the tension reinforcement. The ratio of neutral axis depth cb is shown below Cb eu = d eu + ey eu = 0.003 fc = 0.85 fck
3) Strength for Combined Flexure and Axial Load Maximum usable strain at extreme concrete compression fiber shall be assumed equal to eu = 0.003 if c that is neutral axis is supposed, Pn and Mn can be calculated as below fPn = f0.85 fck ( Acomp - S(1 to 11) Ast ) + S(1 to 28) fs Ast fMn = f0.85 fck ( Acomp - S(1 to 11) Ast ) ( h/2 - c + yc ) + S(1 to 28) fs Ast ( h/2 - c + ys ) fs(i) = e(i) Es , - fy fs(i) fy Sprial or Tied Reinforcement Reduction Factor Pa = 0.1 fck Ag Acomp is Area from top to a (b 1c) b 1c = 0.85 - 0.05 ( fck - 4000 ) / 1000
0.65
f = 0.9 - 0.2
Pn Pa
0.9
(psi)
4) Slenderness Effects dns =
Cm 1-Pu/0.75Pc
p EI 2 (klu) 2
1
Pc =
5) Shear fVc = f 2
fck bw d
, fVs =
fVsmax = f 8 fck bw d (psi) fVn = fVc + fVs
Copyright (c) GS E&C. All Rights Reserved
f fy Av d (psi) s
EI =
0.2EcIg + EsIse 1+b d
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 30
11/18/2009
Calculation Sheet of Pier
I.. I..
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 31
7. Analysis & Result 7.1 Moment Check
unit (tonf-m )
Pier
L/C#
dx
dy
SdMux
SdMuy
fMnx
fMny
4
1
1
1
4.52
10.49
10.6
24.65
OK
5
1
1
1
1.1
9.26
0.61
4.74
NG
6
1
1
1
0.74
9.73
0.92
12.8
OK
7
1
1
1
2.81
10.6
3.2
12.5
OK
8
1
1
1
0.93
10.02
0.46
4.75
NG
9
1
1
1
2.46
9.29
6.58
25
OK
10
1
1
1
2.86
4.93
5.52
9.52
OK
11
1
1
1
0.45
5.98
0
0
NG
12
1
1
1
2.52
5.92
0
0
NG
13
1
1
1
1.52
5.03
0
0
NG
14
1
1
1
0.54
5.01
0
0
NG
15
1
1
1
3.88
5.66
6.43
9.46
OK
16
1
1
1
3.44
2.83
12.79
10.53
OK
17
1
1
1
0.54
2.31
0
0
NG
18
1
1
1
1.38
3.79
0.78
2.12
NG
19
1
1
1
2.39
2.99
3
3.74
OK
21
1
1
1
0.47
1.42
0
0
NG
22
1
1
1
2.45
3.81
8.45
13.17
OK
23
1
1
1
2.77
5.79
11.38
23.88
OK
24
1
1
1
0.95
8.18
0.53
4.51
NG
25
1
1
1
3.5
7.06
6.29
12.62
OK
26
1
1
1
1.39
6.05
3.04
13.14
OK
27
1
1
1
1.15
7.35
0.75
4.5
NG
28
1
1
1
4.88
6.77
16.69
23.02
OK
Result
7.2 Force Check
unit (tonf )
Pier
L/C#
SFz
fPs
fPnmax
Result
4
1
-229.9
702.65
-148.33
OK
5
1
-229.9
702.65
-216.11
OK
6
1
-229.9
702.65
-191.5
OK
7
1
-229.9
702.65
-191.75
OK
8
1
-229.9
702.65
-216.09
OK
9
1
-229.9
702.65
-148.39
OK
10
1
-229.9
702.65
-200.21
OK
11
1
-229.9
702.65
-274.28
NG
12
1
-229.9
702.65
-233.39
NG
13
1
-229.9
702.65
-233.23
NG
14
1
-229.9
702.65
-274.23
NG
15
1
-229.9
702.65
-199.86
OK
Copyright (c) GS E&C. All Rights Reserved
11/18/2009
Calculation Sheet of Pier
I.. I..
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 32
16
1
-229.9
702.65
-187.16
OK
17
1
-229.9
702.65
-244.39
NG
18
1
-229.9
702.65
-223.79
OK
19
1
-229.9
702.65
-218.51
OK
21
1
-229.9
702.65
-244.3
NG
22
1
-229.9
702.65
-187.25
OK
23
1
-229.9
702.65
-150.68
OK
24
1
-229.9
702.65
-216.81
OK
25
1
-229.9
702.65
-190.13
OK
26
1
-229.9
702.65
-189.74
OK
27
1
-229.9
702.65
-216.84
OK
28
1
-229.9
702.65
-150.68
OK
7.3 Shear Check
unit (tonf )
Pier
L/C#
SVux
SVuy
fVcx
fVcy
fVsx
fVsy
fVnx
fVny
Result
4
1
-2.54
1.3
29.77
29.77
26.45
26.45
56.22
56.22
OK
5
1
-1.85
-0.67
29.77
29.77
26.45
26.45
56.22
56.22
OK
6
1
-2.1
-1.71
29.77
29.77
26.45
26.45
56.22
56.22
OK
7
1
-2.52
0.54
29.77
29.77
26.45
26.45
56.22
56.22
OK
8
1
-2.11
-0.6
29.77
29.77
26.45
26.45
56.22
56.22
OK
9
1
-1.69
-2.38
29.77
29.77
26.45
26.45
56.22
56.22
OK
10
1
0.52
2.4
29.77
29.77
26.45
26.45
56.22
56.22
OK
11
1
1.18
0.45
29.77
29.77
26.45
26.45
56.22
56.22
OK
12
1
1.24
-0.58
29.77
29.77
26.45
26.45
56.22
56.22
OK
13
1
0.82
1.52
29.77
29.77
26.45
26.45
56.22
56.22
OK
14
1
0.85
0.42
29.77
29.77
26.45
26.45
56.22
56.22
OK
15
1
1.23
-1.42
29.77
29.77
26.45
26.45
56.22
56.22
OK
16
1
0.35
1.77
29.77
29.77
26.45
26.45
56.22
56.22
OK
17
1
0.04
-0.46
29.77
29.77
26.45
26.45
56.22
56.22
OK
18
1
0.94
-1.71
29.77
29.77
26.45
26.45
56.22
56.22
OK
19
1
0.56
0.76
29.77
29.77
26.45
26.45
56.22
56.22
OK
21
1
-0.26
-0.53
29.77
29.77
26.45
26.45
56.22
56.22
OK
22
1
1.14
-2.69
29.77
29.77
26.45
26.45
56.22
56.22
OK
23
1
0.53
2.24
29.77
29.77
26.45
26.45
56.22
56.22
OK
24
1
1.91
0.58
29.77
29.77
26.45
26.45
56.22
56.22
OK
25
1
1.34
-0.32
29.77
29.77
26.45
26.45
56.22
56.22
OK
26
1
0.85
1.52
29.77
29.77
26.45
26.45
56.22
56.22
OK
27
1
1.63
0.59
29.77
29.77
26.45
26.45
56.22
56.22
OK
28
1
1.32
-1.03
29.77
29.77
26.45
26.45
56.22
56.22
OK
Copyright (c) GS E&C. All Rights Reserved
11/18/2009 Project Na. : Perencanaan Pondasi Graha
Calculation Sheet of Pier
I.. I..
Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 33
8. Detail PM Diagram Pier Name : 4 , L/C= 1 , Axis Angle : 83.7 degree P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
(tonf , tonf-m )
My
(tonf-m )
30
(11,25)
Pnmax 15
fPnmax
0
Balanced
M
Mx
-15
(P=-148,Mu=11,Mn=26)
-30 20
40
60
80
100 120 140 160
30
15
0
-15
-30
Pier Name : 5 , L/C= 1 , Axis Angle : 89.3 degree P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
(tonf , tonf-m )
My
(tonf-m )
10 Pnmax (1,5)
5
fPnmax
0
Balanced
M
Mx
-5
(P=-216,Mu=9,Mn=5)
-10 20
40
60
80
100 120 140 160
10
5
0
-5
-10
Pier Name : 6 , L/C= 1 , Axis Angle : 89.1 degree P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
(tonf , tonf-m )
My
(tonf-m )
16 (1,13) Pnmax 8
fPnmax
0
Balanced
M
Mx
-8
(P=-192,Mu=10,Mn=13)
20
40
60
80
100 120 140 160
Copyright (c) GS E&C. All Rights Reserved
-16 16
8
0
-8
-16
11/18/2009
Calculation Sheet of Pier
I.. I..
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 34
Pier Name : 7 , L/C= 1 , Axis Angle : 87.7 degree P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
(tonf , tonf-m )
My 15
(tonf-m ) (3,12)
Pnmax 7
fPnmax
0
Balanced
M
Mx
-7
(P=-192,Mu=11,Mn=13)
-15 20
40
60
80
100 120 140 160
15
7
0
-7
-15
Pier Name : 8 , L/C= 1 , Axis Angle : 89.5 degree P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
(tonf , tonf-m )
My
(tonf-m )
11 Pnmax (0,5)
5
fPnmax
0
Balanced
M
Mx
-5
(P=-216,Mu=10,Mn=5)
20
40
60
80
100 120 140 160
Copyright (c) GS E&C. All Rights Reserved
-11 11
5
0
-5
-11
11/18/2009
Calculation Sheet of Pier
I.. I..
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 35
Pier Name : 9 , L/C= 1 , Axis Angle : 86.5 degree P
(tonf , tonf-m )
My 30
1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
(tonf-m ) (7,25)
Pnmax 15
fPnmax
0
Balanced
M
Mx
-15
(P=-148,Mu=9,Mn=26)
-30 20
40
60
80
100 120 140 160
30
15
0
-15
-30
Pier Name : 10 , L/C= 1 , Axis Angle : 85.3 degree P 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
(tonf , tonf-m )
My
(tonf-m )
12 (6,10) Pnmax 6
fPnmax
0
Balanced
M
Mx
-6
(P=-200,Mu=5,Mn=11)
20
40
60
80
-12 12
100 120 140 160
6
0
-6
-12
Pier Name : 11 , L/C= 1 , Axis Angle : 86.5 degree P 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300 -400
(tonf , tonf-m )
My
(tonf-m )
6 Pnmax 3
fPnmax
(0,0)
0
Balanced
M
Mx
-3
(P=-274,Mu=6,Mn=0)
-6 20
40
60
80
100 120 140 160
Copyright (c) GS E&C. All Rights Reserved
6
3
0
-3
-6
11/18/2009
Calculation Sheet of Pier
I.. I..
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 36
Pier Name : 12 , L/C= 1 , Axis Angle : 0 degree P 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
(tonf , tonf-m )
My
(tonf-m )
6 Pnmax 3
fPnmax
(0,0)
0
Balanced
M
Mx
-3
(P=-233,Mu=3,Mn=0)
20
40
60
80
-6
100 120 140 160
6
3
0
-3
-6
Pier Name : 13 , L/C= 1 , Axis Angle : 0 degree P 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
(tonf , tonf-m )
My
(tonf-m )
6 Pnmax 2
fPnmax
(0,0)
0
Balanced
M
Mx
-2
(P=-233,Mu=2,Mn=0)
20
40
60
80
-6
100 120 140 160
6
2
0
-2
-6
Pier Name : 14 , L/C= 1 , Axis Angle : 84.4 degree P 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300 -400
(tonf , tonf-m )
My
(tonf-m )
6 Pnmax 2
fPnmax
(0,0)
0
Balanced
M
Mx
-2
(P=-274,Mu=5,Mn=0)
20
40
60
80
100 120 140 160
Copyright (c) GS E&C. All Rights Reserved
-6 6
2
0
-2
-6
11/18/2009
Calculation Sheet of Pier
I.. I..
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 37
Pier Name : 15 , L/C= 1 , Axis Angle : 83.7 degree P 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
(tonf , tonf-m )
My
(tonf-m )
12 (6,9)
Pnmax 6
fPnmax
0
Balanced
M
Mx
-6
(P=-200,Mu=6,Mn=11)
-12 20
40
60
80
100 120 140 160
12
6
0
-6
-12
Pier Name : 16 , L/C= 1 , Axis Angle : 16.9 degree P 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
(tonf , tonf-m )
My
(tonf-m )
17 Pnmax
(13,11) 8
fPnmax
0
Balanced
M
Mx
-8
(P=-187,Mu=4,Mn=16)
20
40
60
80
-17 17
100 120 140
8
0
-8
-17
Pier Name : 17 , L/C= 1 , Axis Angle : 0 degree P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
(tonf , tonf-m )
My
(tonf-m )
2 Pnmax fPnmax
1 (0,0)
0
Balanced
Mx
-1 M (P=-244,Mu=1,Mn=0)
-2 20
40
60
80
100 120 140 160
Copyright (c) GS E&C. All Rights Reserved
2
1
0
-1
-2
11/18/2009
Calculation Sheet of Pier
I.. I..
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 38
Pier Name : 18 , L/C= 1 , Axis Angle : 89.1 degree P 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
(tonf , tonf-m )
My
(tonf-m )
4 Pnmax (1,2)
2
fPnmax
0
Balanced
M
Mx
-2
(P=-224,Mu=4,Mn=2)
-4 20
40
60
80
100 120 140 160
4
2
0
-2
-4
Pier Name : 19 , L/C= 1 , Axis Angle : 80.9 degree P 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
(tonf , tonf-m )
My
(tonf-m )
4
(3,4)
Pnmax 2
fPnmax
0
Balanced
Mx
-2 M (P=-219,Mu=3,Mn=5)
-4 20
40
60
80
100 120 140 160
4
2
0
-2
-4
Pier Name : 21 , L/C= 1 , Axis Angle : 0 degree P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
(tonf , tonf-m )
My
(tonf-m )
2 Pnmax 1
fPnmax
(0,0)
0
Balanced
M
Mx
-1
(P=-244,Mu=0,Mn=0)
20
40
60
80
100 120 140 160
Copyright (c) GS E&C. All Rights Reserved
-2 2
1
0
-1
-2
11/18/2009
Calculation Sheet of Pier
I.. I..
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 39
Pier Name : 22 , L/C= 1 , Axis Angle : 83.3 degree P 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
(tonf , tonf-m )
My
(tonf-m )
17 (8,13)
Pnmax 8
fPnmax
0
Balanced
M
Mx
-8
(P=-187,Mu=4,Mn=15)
20
40
60
80
-17 17
100 120 140 160
8
0
-8
-17
Pier Name : 23 , L/C= 1 , Axis Angle : 83 degree P
(tonf , tonf-m )
My
(tonf-m )
30
1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
(11,24) Pnmax 15
fPnmax
0
Balanced
M
Mx
-15
(P=-151,Mu=6,Mn=26)
20
40
60
80
-30 30
100 120 140 160
15
0
-15
-30
Pier Name : 24 , L/C= 1 , Axis Angle : 89.4 degree P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
(tonf , tonf-m )
My
(tonf-m )
9 Pnmax (1,5) 4
fPnmax
0
Balanced
Mx
-4 M (P=-217,Mu=8,Mn=5)
20
40
60
80
100 120 140 160
Copyright (c) GS E&C. All Rights Reserved
-9 9
4
0
-4
-9
11/18/2009
Calculation Sheet of Pier
I.. I..
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 40
Pier Name : 25 , L/C= 1 , Axis Angle : 85.8 degree P 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
(tonf , tonf-m )
My
(tonf-m )
16 (6,13) Pnmax 8
fPnmax
0
Balanced
M
Mx
-8
(P=-190,Mu=7,Mn=13)
20
40
60
80
-16 16
100 120 140 160
8
0
-8
-16
Pier Name : 26 , L/C= 1 , Axis Angle : 88 degree P 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
(tonf , tonf-m )
My 16
(tonf-m ) (3,13)
Pnmax 8
fPnmax
0
Balanced
M
Mx
-8
(P=-190,Mu=6,Mn=13)
20
40
60
80
-16 16
100 120 140 160
8
0
-8
-16
Pier Name : 27 , L/C= 1 , Axis Angle : 89.1 degree P 1300 1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
(tonf , tonf-m )
My
(tonf-m )
8 Pnmax
(1,4) 4
fPnmax
0
Balanced
M
Mx
-4
(P=-217,Mu=7,Mn=5)
-8 20
40
60
80
100 120 140 160
Copyright (c) GS E&C. All Rights Reserved
8
4
0
-4
-8
11/18/2009
Calculation Sheet of Pier
I.. I..
Project Na. : Perencanaan Pondasi Graha Project No. : Perencanaan Pondasi Graha Client : Institut Sains da...
Page 41
Pier Name : 28 , L/C= 1 , Axis Angle : 70.3 degree P
(tonf , tonf-m )
My
(tonf-m )
30
1200 1100 1000 900 800 700 600 500 400 300 200 100 0 -100 -200 -300
(17,23)
Pnmax 15
fPnmax
0
Balanced
M
Mx
-15
(P=-151,Mu=8,Mn=28)
20
40
60
80
100 120 140
Copyright (c) GS E&C. All Rights Reserved
-30 30
15
0
-15
-30
LAMPIRAN 3
PRINT OUT ANALISA STRUKTUR TANGGA DENGAN SOFTWARE SAP 2000
License #
SAP2000 Analysis Report Prepared by
G. Ginanjar Institut Sains dan Teknologi Nasional Model Name: Analisa Tangga.SDB
19 November 2009
Perencanaan Struktur Tangga – Graha ISTN
SAP2000 v12.0.0
Table: Active Degrees of Freedom UX
UY
No
No
Table: Active Degrees of Freedom UZ RX Yes
Yes
RY
RZ
Yes
No
Table: Analysis Options Solver Advanced
Table: Analysis Options SolverProc Force32Bit StiffCase Auto
No
None
GeomMod No
Table: Area Loads - Uniform Area 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26 27 28 29 30 31 32 33 34 35 36 37
Table: Area Loads - Uniform LoadPat CoordSys Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load
G. Ginanjar – NIM : 08114723
GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL
Dir Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity
UnifLoad Kgf/m2 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00
Page 1 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83 84 85 86 87 88 89 90 91 92 93 94
SAP2000 v12.0.0
Table: Area Loads - Uniform LoadPat CoordSys Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load
G. Ginanjar – NIM : 08114723
GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL
Dir Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity
UnifLoad Kgf/m2 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00
Page 2 of 53
Perencanaan Struktur Tangga – Graha ISTN
SAP2000 v12.0.0
Area
Table: Area Loads - Uniform LoadPat CoordSys
95 96 97 98 99 100 101 102 103 104 105 106 107 109 110 111 112 113 114 115 116 117 118 119
Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load Live Load
GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL GLOBAL
Dir Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity Gravity
UnifLoad Kgf/m2 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00 300.00
Table: Area Section Assignments Area 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 22 23 24 25 26
Table: Area Section Assignments Section MatProp PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA
G. Ginanjar – NIM : 08114723
Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default
Page 3 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area 27 28 29 30 31 32 33 34 35 36 37 38 39 40 41 42 43 44 45 46 47 48 49 50 51 52 53 54 55 56 57 58 59 60 61 62 63 64 65 66 67 68 69 70 71 72 73 74 75 76 77 78 79 80 81 82 83
SAP2000 v12.0.0
Table: Area Section Assignments Section MatProp PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA
G. Ginanjar – NIM : 08114723
Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default
Page 4 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area 84 85 86 87 88 89 90 91 92 93 94 95 96 97 98 99 100 101 102 103 104 105 106 107 109 110 111 112 113 114 115 116 117 118 119
SAP2000 v12.0.0
Table: Area Section Assignments Section MatProp PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT TANGGA PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES PELAT BORDES
Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default Default
Table: Area Section Properties, Part 1 of 4 Section
Material
PELAT BORDES PELAT TANGGA
4000Psi
MatAngle Degrees 0.000
4000Psi
0.000
Table: Area Section Properties, Part 1 of 4 AreaType Type Thickness m Shell Plate-Thick 0.150000 Shell
Plate-Thick
0.150000
BendThick m 0.150000
Arc Degrees
InComp
0.150000
Table: Area Section Properties, Part 2 of 4 Section
CoordSys
PELAT BORDES PELAT TANGGA
G. Ginanjar – NIM : 08114723
Table: Area Section Properties, Part 2 of 4 Color TotalWt TotalMass Kgf Kgf-s2/m Green 4865.61 496.15
F11Mod
F22Mod
F12Mod
1.000000
1.000000
1.000000
Green
1.000000
1.000000
1.000000
6330.19
645.50
Page 5 of 53
Perencanaan Struktur Tangga – Graha ISTN
SAP2000 v12.0.0
Table: Area Section Properties, Part 3 of 4 Section
M11Mod
Table: Area Section Properties, Part 3 of 4 M22Mod M12Mod V13Mod V23Mod
PELAT BORDES PELAT TANGGA
1.000000
1.000000
1.000000
1.000000
1.000000
1.000000
1.000000
1.000000
MMod
WMod
1.000000
1.000000
1.000000
1.000000
1.000000
1.000000
Table: Base Reactions, Part 1 of 3 GlobalFY GlobalFZ GlobalMX Kgf Kgf Kgf-m 0.00 344888.79 486560.86
GlobalMY Kgf-m -843270.09
GlobalMZ Kgf-m 0.00
GlobalX m 0.00000
XCentroidF Y m 0.00000
YCentroidF Y m 0.00000
ZCentroidF Y m 0.00000
Table: Area Section Properties, Part 4 of 4 Section
Table: Area Section Properties, Part 4 of 4 GUID Notes
PELAT BORDES PELAT TANGGA
Added 10/15/2009 11:21:25 AM Added 10/13/2009 1:12:00 PM
Table: Base Reactions, Part 1 of 3 OutputCase
CaseType
COMB3
Combination
GlobalFX Kgf 0.00
Table: Base Reactions, Part 2 of 3 OutputCase
GlobalY
GlobalZ
COMB3
m 0.00000
m 0.00000
Table: Base Reactions, Part 2 of 3 XCentroidF YCentroidF ZCentroidF X X X m m m 0.00000 0.00000 0.00000
Table: Base Reactions, Part 3 of 3 Table: Base Reactions, Part 3 of 3 OutputCase XCentroidF YCentroidF ZCentroidFZ Z Z m m m COMB3 6.80000 1.41628 2.32775
Table: Case - Static 1 - Load Assignments Case DEAD Live Load
Table: Case - Static 1 - Load Assignments LoadType LoadName Load pattern Load pattern
G. Ginanjar – NIM : 08114723
Dead Load Live Load
LoadSF 1.000000 1.000000
Page 6 of 53
Perencanaan Struktur Tangga – Graha ISTN
SAP2000 v12.0.0
Table: Coordinate Systems Name
Type
GLOBAL
Cartesian
Table: Coordinate Systems X Y Z m m m 0.00000 0.00000 0.00000
AboutZ Degrees 0.000
AboutY Degrees 0.000
AboutX Degrees 0.000
S12Top
SMaxTop
Kgf/m2 378241.51
Kgf/m2 1180869.82
364150.10
1204165.30
390619.25
1007039.82
404710.65
990119.96
287966.80
1124450.29
444623.34
1393102.88
622231.34
1311625.75
465574.80
1026493.19
587298.01
1479355.40
743752.88
1468549.28
636995.33
1206081.08
480540.45
1212961.64
659757.73
1484478.98
654324.21
1537638.49
714425.71
1336682.92
719859.24
1296168.80
345107.92
938429.46
450961.32
1114013.23
557563.07
1081945.23
451709.68
902779.63
517040.58
1155246.54
569884.93
1169028.36
544704.14
1005714.22
491859.79
992968.05
531652.00
1149023.54
Table: Element Stresses - Area Shells, Part 1 of 4 Area
AreaEle m
ShellTy pe
1
1
1
1
1
1
1
1
2
2
2
2
2
2
2
2
3
3
3
3
3
3
3
3
4
4
4
4
4
4
4
4
5
5
5
5
5
5
5
5
6
6
6
6
6
6
6
6
7
7
Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 1 of 4 Joint OutputC CaseTy S11Top S22Top ase pe Kgf/m2 Kgf/m2 1 COMB3 Combina -69657.22 1066464.75 tion 2 COMB3 Combina -65477.59 1099722.31 tion 3 COMB3 Combina -125576.02 872322.12 tion 4 COMB3 Combina -136339.49 844716.84 tion 2 COMB3 Combina -321762.00 1067110.94 tion 5 COMB3 Combina -288708.52 1275557.05 tion 6 COMB3 Combina -120299.54 1041240.25 tion 3 COMB3 Combina -168467.86 845098.25 tion 5 COMB3 Combina -268610.41 1282029.49 tion 7 COMB3 Combina -322436.09 1159686.71 tion 8 COMB3 Combina -159909.54 909034.35 tion 6 COMB3 Combina -117345.26 1039378.29 tion 7 COMB3 Combina -48966.24 1200621.25 tion 9 COMB3 Combina -69712.33 1271274.63 tion 10 COMB3 Combina -122524.69 986901.23 tion 8 COMB3 Combina -121138.91 930547.90 tion 4 COMB3 Combina -127233.38 826668.52 tion 3 COMB3 Combina -122838.06 949590.79 tion 11 COMB3 Combina -7431.60 796574.21 tion 12 COMB3 Combina -23057.88 682393.62 tion 3 COMB3 Combina -139174.04 948720.96 tion 6 COMB3 Combina -152463.06 923269.04 tion 13 COMB3 Combina -113696.65 740661.76 tion 11 COMB3 Combina -110090.40 773645.09 tion 6 COMB3 Combina -138602.57 929508.08 tion
Page 7 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
ShellTy pe
7
7
7
7
7
7
8
8
8
8
8
8
8
8
9
9
9
9
9
9
9
9
10
10
10
10
10
10
10
10
11
11
11
11
11
11
11
11
12
12
12
12
12
12
12
12
13
13
13
13
13
13
13
13
14
14
14
14
14
14
14
14
Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 1 of 4 Joint OutputC CaseTy S11Top S22Top ase pe Kgf/m2 Kgf/m2 8 COMB3 Combina -144233.35 990998.99 tion 14 COMB3 Combina -103885.35 787052.98 tion 13 COMB3 Combina -113399.36 737254.28 tion 8 COMB3 Combina -111498.90 1001969.38 tion 10 COMB3 Combina -135322.03 899693.12 tion 15 COMB3 Combina -19146.68 688773.28 tion 14 COMB3 Combina -9032.10 801600.12 tion 12 COMB3 Combina -13547.60 707085.25 tion 11 COMB3 Combina -23641.30 738385.45 tion 16 COMB3 Combina -45135.37 638343.11 tion 17 COMB3 Combina -45966.75 615577.06 tion 11 COMB3 Combina -110968.82 727509.61 tion 13 COMB3 Combina -114257.27 779602.04 tion 18 COMB3 Combina -61956.01 668722.35 tion 16 COMB3 Combina -71286.32 626523.25 tion 13 COMB3 Combina -100682.87 786130.49 tion 14 COMB3 Combina -114876.04 746805.78 tion 19 COMB3 Combina -69353.98 615779.91 tion 18 COMB3 Combina -66690.42 663961.90 tion 14 COMB3 Combina -8247.72 769519.71 tion 15 COMB3 Combina -13350.26 753757.69 tion 20 COMB3 Combina -45839.35 590847.95 tion 19 COMB3 Combina -54605.81 617341.28 tion 17 COMB3 Combina -45095.06 585557.97 tion 16 COMB3 Combina -54230.25 627246.22 tion 21 COMB3 Combina -12919.68 597244.18 tion 22 COMB3 Combina -16072.81 565120.51 tion 16 COMB3 Combina -64437.35 628581.45 tion 18 COMB3 Combina -74219.20 639593.06 tion 23 COMB3 Combina -74749.92 583475.76 tion 21 COMB3 Combina -76221.32 581207.19 tion
SAP2000 v12.0.0
S12Top
SMaxTop
Kgf/m2 586541.57
Kgf/m2 1239605.29
637080.86
1118960.69
582191.30
1032933.43
659639.09
1308413.46
773771.17
1313064.66
678500.36
1100091.29
564368.28
1091116.87
507599.10
969251.58
501648.52
987310.51
527218.97
924891.66
533169.55
912244.25
493043.30
955459.10
544000.94
1036720.07
586569.82
994423.60
535612.18
916848.44
584668.98
1076513.49
634025.06
1082523.19
595546.11
960255.38
546190.03
955740.57
624467.73
1116292.49
618412.48
1097903.96
598754.28
950626.24
604809.53
973229.56
515053.33
874144.32
545566.12
929738.07
579867.03
947387.97
549354.23
896003.13
559400.68
940097.80
562566.65
948917.54
569398.37
912032.87
566232.40
907223.56
Page 8 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
ShellTy pe
15
15
15
15
15
15
15
15
16
16
16
16
16
16
16
16
17
17
17
17
17
17
17
17
18
18
18
18
18
18
18
18
19
19
19
19
19
19
19
19
20
20
20
20
20
20
20
20
21
21
21
21
21
21
21
21
22
22
22
22
22
22
Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 1 of 4 Joint OutputC CaseTy S11Top S22Top ase pe Kgf/m2 Kgf/m2 18 COMB3 Combina -64011.24 645991.54 tion 19 COMB3 Combina -70473.15 641550.30 tion 24 COMB3 Combina -76688.82 563106.65 tion 23 COMB3 Combina -82949.83 577478.89 tion 19 COMB3 Combina -41258.68 652935.75 tion 20 COMB3 Combina -47008.73 616142.20 tion 25 COMB3 Combina -19076.36 521278.71 tion 24 COMB3 Combina -25750.52 567751.75 tion 22 COMB3 Combina -14727.99 530781.50 tion 21 COMB3 Combina -24381.55 580997.88 tion 26 COMB3 Combina -54765.62 610900.57 tion 27 COMB3 Combina -57395.87 570355.14 tion 21 COMB3 Combina -69254.43 579296.94 tion 23 COMB3 Combina -83655.88 575690.64 tion 28 COMB3 Combina -86239.08 583905.04 tion 26 COMB3 Combina -84706.15 597638.83 tion 23 COMB3 Combina -75185.21 582657.92 tion 24 COMB3 Combina -81136.03 574514.66 tion 29 COMB3 Combina -87611.54 560362.41 tion 28 COMB3 Combina -92964.76 577286.76 tion 24 COMB3 Combina -15151.69 590715.26 tion 25 COMB3 Combina -20903.93 542171.52 tion 30 COMB3 Combina -57107.56 504062.58 tion 29 COMB3 Combina -63682.58 562144.48 tion 27 COMB3 Combina -46142.57 578317.18 tion 26 COMB3 Combina -72306.99 571498.12 tion 31 COMB3 Combina -18638.85 677726.68 tion 32 COMB3 Combina -6643.57 695778.59 tion 26 COMB3 Combina -80061.59 574696.86 tion 28 COMB3 Combina -88021.35 621158.44 tion 33 COMB3 Combina -152347.45 682960.46 tion
SAP2000 v12.0.0
S12Top
SMaxTop
Kgf/m2 570171.93
Kgf/m2 962646.33
571757.63
959074.86
563172.39
890895.34
561586.69
898740.65
586599.63
987436.37
616724.38
984774.75
578561.46
889637.98
548436.70
894574.23
581113.95
899968.01
548127.18
904458.68
590274.47
955711.79
623261.24
954313.72
572379.46
912876.08
563523.38
898890.31
557048.08
898891.32
565904.15
917258.42
566125.43
908478.60
558399.31
894207.07
546990.21
872115.83
554716.34
890250.11
577035.52
939501.57
549928.95
878440.68
501092.97
797778.95
528199.54
863160.61
597724.06
940447.41
616137.31
944754.86
608246.78
1030397.24
589833.52
1031046.07
593003.53
924687.80
529742.13
904032.83
568511.41
970742.58
Page 9 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
ShellTy pe
22
22
23
23
23
23
23
23
23
23
24
24
24
24
24
24
24
24
25
25
25
25
25
25
25
25
26
26
26
26
26
26
26
26
27
27
27
27
27
27
27
27
28
28
28
28
28
28
28
28
29
29
29
29
29
29
29
29
30
30
30
30
Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 1 of 4 Joint OutputC CaseTy S11Top S22Top ase pe Kgf/m2 Kgf/m2 31 COMB3 Combina -155957.24 645513.34 tion 28 COMB3 Combina -76402.33 628891.46 tion 29 COMB3 Combina -97114.55 544054.78 tion 34 COMB3 Combina -182440.03 577803.76 tion 33 COMB3 Combina -174928.06 673035.13 tion 29 COMB3 Combina -57811.90 560338.32 tion 30 COMB3 Combina -66647.12 487524.36 tion 35 COMB3 Combina -38483.19 516476.31 tion 34 COMB3 Combina -40448.34 597779.09 tion 32 COMB3 Combina -3879.29 608401.88 tion 31 COMB3 Combina -3693.86 853649.80 tion 36 COMB3 Combina -289777.34 1019551.96 tion 37 COMB3 Combina -302756.54 784701.09 tion 31 COMB3 Combina -102936.38 853438.04 tion 33 COMB3 Combina -176535.91 619197.82 tion 38 COMB3 Combina -371604.32 745905.49 tion 36 COMB3 Combina -315704.91 994729.70 tion 33 COMB3 Combina -165767.80 645291.33 tion 34 COMB3 Combina -211640.79 505345.05 tion 39 COMB3 Combina -184085.81 617505.07 tion 38 COMB3 Combina -148977.29 766491.01 tion 34 COMB3 Combina -43017.85 549606.24 tion 35 COMB3 Combina -62517.92 431627.93 tion 40 COMB3 Combina -90563.74 501500.91 tion 39 COMB3 Combina -81272.92 627531.04 tion 37 COMB3 Combina -53615.88 1892790.24 tion 36 COMB3 Combina -355715.81 827473.75 tion 41 COMB3 Combina -674282.05 1111999.48 tion 42 COMB3 Combina -401545.06 2203493.27 tion 36 COMB3 Combina -292418.23 910671.76 tion 38 COMB3 Combina -451019.32 549321.82 tion
SAP2000 v12.0.0
S12Top
SMaxTop
Kgf/m2 631772.81
Kgf/m2 992926.20
588842.79
962608.65
513169.08
828546.17
433398.59
774159.96
509072.30
911560.13
508393.06
846234.57
520641.91
800222.06
450790.01
768342.04
438541.15
821023.10
722912.47
1087324.67
474992.36
1064803.94
693344.27
1318465.87
941264.38
1327995.58
688199.59
1213273.32
513120.50
870631.10
304031.26
823265.40
479110.36
1151212.12
471471.28
861645.51
470623.76
738463.40
345884.34
746117.75
346731.85
882989.85
462786.59
802814.22
426429.04
677390.43
317469.75
639544.82
353827.30
773922.95
967745.51
2292050.50
669715.30
1129468.90
-264143.16
1150240.50
33887.05
2203934.01
358224.17
1009256.00
424170.44
704964.60
Page 10 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
ShellTy pe
30
30
30
30
31
31
31
31
31
31
31
31
32
32
32
32
32
32
32
32
33
33
33
33
33
33
33
33
34
34
34
34
34
34
34
34
35
35
35
35
35
35
35
35
36
36
36
36
36
36
36
36
37
37
37
37
37
37
37
37
38
38
Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 1 of 4 Joint OutputC CaseTy S11Top S22Top ase pe Kgf/m2 Kgf/m2 43 COMB3 Combina -312648.10 769701.22 tion 41 COMB3 Combina -166664.91 1142984.41 tion 38 COMB3 Combina -152036.77 640556.94 tion 39 COMB3 Combina -243490.79 431116.84 tion 44 COMB3 Combina -250207.66 546097.34 tion 43 COMB3 Combina -171731.74 766445.88 tion 39 COMB3 Combina -102132.94 476287.75 tion 40 COMB3 Combina -134483.98 328842.89 tion 45 COMB3 Combina -40499.60 422379.42 tion 44 COMB3 Combina -15780.13 576083.50 tion 42 COMB3 Combina 956640.01 -703255.12 tion 41 COMB3 Combina 567466.57 -1001252.02 tion 46 COMB3 Combina 722218.72 -400451.33 tion 47 COMB3 Combina 1123883.16 -114388.42 tion 41 COMB3 Combina 703310.98 -280949.63 tion 43 COMB3 Combina 480511.86 -478153.57 tion 48 COMB3 Combina 531893.66 -397354.39 tion 46 COMB3 Combina 767834.46 -213452.97 tion 43 COMB3 Combina 525178.54 -253266.00 tion 44 COMB3 Combina 322478.46 -368082.25 tion 49 COMB3 Combina 382635.60 -212700.99 tion 48 COMB3 Combina 590985.75 -103448.08 tion 44 COMB3 Combina 380555.82 -66983.69 tion 45 COMB3 Combina 241538.40 -104373.45 tion 50 COMB3 Combina 271071.07 -96446.71 tion 49 COMB3 Combina 414613.66 -63522.44 tion 47 COMB3 Combina 157104.89 -284775.35 tion 46 COMB3 Combina 330798.70 -501704.06 tion 51 COMB3 Combina 407675.03 -251130.92 tion 52 COMB3 Combina 248556.21 -48236.17 tion 46 COMB3 Combina 379101.43 -288967.20 tion
SAP2000 v12.0.0
S12Top
SMaxTop
Kgf/m2 116018.17
Kgf/m2 781997.63
50071.91
1144896.02
360626.51
780079.72
332357.03
567347.67
151321.81
573883.45
179591.29
799649.16
308537.43
609969.80
362332.17
527240.55
229823.34
517104.00
176028.61
624479.59
350891.49
1027768.36
-117945.77
576284.87
162948.77
745391.45
631786.03
1389327.90
-57142.51
706617.35
-109284.28
492812.04
50135.45
534590.78
102277.21
778381.21
-106574.37
539505.62
-223245.19
388363.45
-70634.82
390901.43
46036.00
594024.31
-202976.07
458898.95
-202432.54
334839.28
-90565.64
292176.69
-91109.18
431386.21
491573.84
475107.60
302641.14
429189.79
129082.74
432063.91
318015.43
451094.83
164496.05
417408.19
Page 11 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
ShellTy pe
38
38
38
38
38
38
39
39
39
39
39
39
39
39
40
40
40
40
40
40
40
40
41
41
41
41
41
41
41
41
42
42
42
42
42
42
42
42
43
43
43
43
43
43
43
43
44
44
44
44
44
44
44
44
45
45
45
45
45
45
45
45
Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 1 of 4 Joint OutputC CaseTy S11Top S22Top ase pe Kgf/m2 Kgf/m2 48 COMB3 Combina 227169.11 -460531.68 tion 53 COMB3 Combina 279743.00 -235831.36 tion 51 COMB3 Combina 438053.84 -70460.06 tion 48 COMB3 Combina 285267.94 -160852.81 tion 49 COMB3 Combina 210008.87 -250965.17 tion 54 COMB3 Combina 228730.85 -179688.19 tion 53 COMB3 Combina 309693.28 -95264.67 tion 49 COMB3 Combina 242934.05 -94714.00 tion 50 COMB3 Combina 134378.44 -126929.59 tion 55 COMB3 Combina 149811.48 -42357.37 tion 54 COMB3 Combina 260559.62 -12169.58 tion 52 COMB3 Combina 92595.10 -79622.20 tion 51 COMB3 Combina 26344.34 -327203.26 tion 56 COMB3 Combina 44153.89 -238333.97 tion 57 COMB3 Combina 116971.13 2551.51 tion 51 COMB3 Combina 64470.29 -137628.38 tion 53 COMB3 Combina 91615.69 -281005.21 tion 58 COMB3 Combina 106518.21 -172642.25 tion 56 COMB3 Combina 84722.73 -34434.93 tion 53 COMB3 Combina 122104.78 -133202.49 tion 54 COMB3 Combina 41438.38 -216726.57 tion 59 COMB3 Combina 53625.85 -98794.56 tion 58 COMB3 Combina 136590.95 -17635.81 tion 54 COMB3 Combina 73088.96 -46017.91 tion 55 COMB3 Combina 46612.63 -66642.95 tion 60 COMB3 Combina 45406.74 -35434.28 tion 59 COMB3 Combina 72744.86 -15655.27 tion 61 COMB3 Combina -597046.55 1417591.84 tion 62 COMB3 Combina 269628.27 834613.43 tion 63 COMB3 Combina -96064.00 -373798.21 tion 64 COMB3 Combina -933872.44 174565.51 tion
SAP2000 v12.0.0
S12Top
SMaxTop
Kgf/m2 -10869.20
Kgf/m2 227340.86
90360.02
295120.90
265725.27
551569.26
14391.57
285731.72
-39038.23
213291.50
11530.03
229056.10
64959.83
319858.41
-57175.01
252352.93
-124046.41
183885.42
-37874.10
157006.60
28997.30
263608.61
258020.94
278496.57
190272.76
109287.12
207590.63
153995.04
275338.81
340980.85
220697.52
206152.01
135486.94
135670.81
91683.74
133936.62
176894.31
211801.97
86061.01
148405.52
-8995.90
41751.47
45478.66
66164.18
140535.57
219779.53
8564.39
73701.63
-17214.93
49171.50
1844.30
45448.79
27623.62
80666.87
809382.10
1702476.71
1772227.88
2346722.12
968070.36
743048.59
5224.58
174590.13
Page 12 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
ShellTy pe
46
46
46
46
46
46
46
46
47
47
47
47
47
47
47
47
48
48
48
48
48
48
48
48
49
49
49
49
49
49
49
49
50
50
50
50
50
50
50
50
51
51
51
51
51
51
51
51
52
52
52
52
52
52
52
52
53
53
53
53
53
53
Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 1 of 4 Joint OutputC CaseTy S11Top S22Top ase pe Kgf/m2 Kgf/m2 62 COMB3 Combina -135296.81 -904727.16 tion 42 COMB3 Combina 866845.66 -1396365.84 tion 47 COMB3 Combina 1040253.37 -288398.40 tion 63 COMB3 Combina 69346.56 167969.78 tion 64 COMB3 Combina -40107.50 243905.78 tion 63 COMB3 Combina 67144.01 -231743.90 tion 65 COMB3 Combina -55284.68 -250090.42 tion 66 COMB3 Combina -148215.42 207781.94 tion 63 COMB3 Combina 60857.78 76302.77 tion 47 COMB3 Combina 161685.07 -374142.80 tion 52 COMB3 Combina 164046.28 -358517.50 tion 65 COMB3 Combina 77546.34 74586.85 tion 66 COMB3 Combina -13533.02 188022.02 tion 65 COMB3 Combina -205.78 -192378.24 tion 67 COMB3 Combina -48115.35 -265066.81 tion 68 COMB3 Combina -52953.43 105918.74 tion 65 COMB3 Combina 27228.31 24080.87 tion 52 COMB3 Combina 50432.34 -340797.91 tion 57 COMB3 Combina 52414.05 -269871.93 tion 67 COMB3 Combina 37867.01 85556.29 tion 69 COMB3 Combina 220823.63 67600.83 tion 70 COMB3 Combina 113476.09 23123.25 tion 71 COMB3 Combina -171336.67 32546.89 tion 72 COMB3 Combina -60662.20 73689.77 tion 70 COMB3 Combina 164905.06 300821.24 tion 73 COMB3 Combina -40820.40 161328.84 tion 74 COMB3 Combina -353356.04 19961.71 tion 71 COMB3 Combina -142815.48 154599.68 tion 73 COMB3 Combina 2115.66 404019.13 tion 75 COMB3 Combina -268050.37 158769.06 tion 76 COMB3 Combina -566406.20 108394.93 tion
SAP2000 v12.0.0
S12Top
SMaxTop
Kgf/m2 1820685.52
Kgf/m2 1340875.31
943662.85
1208681.85
42866.35
1041634.94
919889.01
1039867.93
486129.67
608345.53
489652.06
429649.89
328631.52
190074.75
325109.13
400430.64
484864.25
553506.02
480653.69
444049.10
329143.84
323007.05
333354.40
409424.28
298810.96
402592.09
356035.07
272481.01
285987.45
149277.86
228763.34
268645.33
358826.77
384484.81
304718.13
216919.99
229095.44
171363.52
283204.08
345917.77
-106705.60
275572.01
-160257.54
234803.09
-76549.77
58088.42
-22997.84
77517.40
-193666.20
438106.66
-125433.72
221343.32
25186.78
21653.33
-43045.70
160704.50
-144807.70
450758.47
-145924.29
203889.04
44729.57
111346.94
Page 13 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
ShellTy pe
53
53
54
54
54
54
54
54
54
54
55
55
55
55
55
55
55
55
56
56
56
56
56
56
56
56
57
57
57
57
57
57
57
57
58
58
58
58
58
58
58
58
59
59
59
59
59
59
59
59
60
60
60
60
60
60
60
60
61
61
61
61
Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 1 of 4 Joint OutputC CaseTy S11Top S22Top ase pe Kgf/m2 Kgf/m2 74 COMB3 Combina -283649.87 340482.59 tion 75 COMB3 Combina -129470.47 979138.85 tion 61 COMB3 Combina -681381.03 591932.98 tion 64 COMB3 Combina -1054311.03 -23641.00 tion 76 COMB3 Combina -492070.92 352601.10 tion 72 COMB3 Combina 63543.29 100039.54 tion 71 COMB3 Combina -21247.28 61056.10 tion 77 COMB3 Combina -186746.84 -20601.08 tion 78 COMB3 Combina -100566.35 17087.31 tion 71 COMB3 Combina 3107.66 184654.50 tion 74 COMB3 Combina -75837.48 74595.24 tion 79 COMB3 Combina -242376.49 14936.51 tion 77 COMB3 Combina -158312.70 119745.95 tion 74 COMB3 Combina -19579.35 388541.29 tion 76 COMB3 Combina -213839.63 183663.65 tion 80 COMB3 Combina -408871.47 -50805.98 tion 79 COMB3 Combina -209132.00 148503.61 tion 76 COMB3 Combina -166807.88 427019.80 tion 64 COMB3 Combina -24024.23 173050.27 tion 66 COMB3 Combina -243101.85 -115378.40 tion 80 COMB3 Combina -372081.20 124947.97 tion 78 COMB3 Combina -2159.09 39114.66 tion 77 COMB3 Combina -13242.05 11753.98 tion 81 COMB3 Combina -61391.56 -14058.68 tion 82 COMB3 Combina -49631.11 12606.07 tion 77 COMB3 Combina 11110.37 151077.42 tion 79 COMB3 Combina -71383.69 51688.20 tion 83 COMB3 Combina -132646.71 -62623.31 tion 81 COMB3 Combina -48142.02 34627.66 tion 79 COMB3 Combina -45061.95 186113.92 tion 80 COMB3 Combina -20732.88 22025.44 tion
SAP2000 v12.0.0
S12Top
SMaxTop
Kgf/m2 45846.16
Kgf/m2 343832.28
-251197.29
1033401.14
205101.44
624154.69
605770.53
256340.35
149471.80
378271.25
-70173.99
154299.23
-29006.16
70251.40
35844.41
-13197.86
-5323.42
17327.69
-21296.75
187119.30
3326.82
74668.77
53368.92
25566.53
28745.34
122686.51
-36920.82
391854.46
128778.25
221736.95
259308.07
85269.82
93609.00
171523.50
271925.64
532724.12
482640.45
567109.60
328322.55
155235.61
117607.73
151371.70
8391.26
40755.44
22236.93
24764.42
27261.05
-1624.36
13415.38
15374.63
-1739.22
151099.03
84374.08
94582.41
137594.07
44343.67
51480.78
59295.64
133775.19
247320.70
219145.51
220832.16
Page 14 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
ShellTy pe
61
61
61
61
62
62
62
62
62
62
62
62
63
63
63
63
63
63
63
63
64
64
64
64
64
64
64
64
65
65
65
65
65
65
65
65
66
66
66
66
66
66
66
66
67
67
67
67
67
67
67
67
68
68
68
68
68
68
68
68
69
69
Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 1 of 4 Joint OutputC CaseTy S11Top S22Top ase pe Kgf/m2 Kgf/m2 84 COMB3 Combina -86584.32 -90600.79 tion 83 COMB3 Combina -105850.69 68539.79 tion 80 COMB3 Combina 12881.08 197358.03 tion 66 COMB3 Combina -53143.52 -72804.33 tion 68 COMB3 Combina -119138.18 -162231.15 tion 84 COMB3 Combina -46745.35 101331.29 tion 61 COMB3 Combina 350534.63 -1733831.83 tion 75 COMB3 Combina 677890.02 -624011.42 tion 85 COMB3 Combina 356128.87 176264.30 tion 86 COMB3 Combina -1673.55 -905312.80 tion 75 COMB3 Combina 84443.85 -654182.45 tion 73 COMB3 Combina 264719.77 -265404.78 tion 87 COMB3 Combina 404278.24 434948.15 tion 85 COMB3 Combina 211221.14 58764.55 tion 73 COMB3 Combina 110112.54 -257642.31 tion 70 COMB3 Combina 209002.35 -39181.28 tion 88 COMB3 Combina 194650.01 540143.71 tion 87 COMB3 Combina 83640.30 332136.65 tion 70 COMB3 Combina -6030.52 -62991.04 tion 69 COMB3 Combina 25930.13 59225.77 tion 89 COMB3 Combina 110665.12 614300.58 tion 88 COMB3 Combina 73304.90 496677.87 tion 86 COMB3 Combina 260445.62 157842.61 tion 85 COMB3 Combina 263363.31 -40123.07 tion 90 COMB3 Combina -10109.50 744892.60 tion 91 COMB3 Combina -28942.86 956046.42 tion 85 COMB3 Combina 245104.33 -17519.53 tion 87 COMB3 Combina 316719.46 242854.30 tion 92 COMB3 Combina 126559.87 972764.59 tion 90 COMB3 Combina 36326.85 727924.53 tion 87 COMB3 Combina 88027.28 224645.90 tion
SAP2000 v12.0.0
S12Top
SMaxTop
Kgf/m2 174106.30
Kgf/m2 85525.32
88735.98
105751.48
190114.73
316428.68
256928.39
194142.46
270211.88
130384.91
203398.22
243747.38
214128.52
372304.83
-165031.03
698483.85
774574.49
1045974.41
1153734.04
785556.15
148191.24
113066.43
142210.36
300459.42
457956.63
877826.50
463937.51
605151.08
212099.60
206943.41
108046.32
249448.63
283914.63
699735.53
387967.91
615266.32
144704.59
112969.88
122528.75
166232.48
225882.01
700765.06
248057.86
611095.46
1129688.65
1339997.01
796148.00
922100.00
607068.49
1082261.60
940609.13
1525293.98
592963.30
721121.22
329804.30
611652.66
546069.88
1240464.60
809228.87
1262141.72
382626.54
545012.84
Page 15 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
ShellTy pe
69
69
69
69
69
69
70
70
70
70
70
70
70
70
71
71
71
71
71
71
71
71
72
72
72
72
72
72
72
72
73
73
73
73
73
73
73
73
74
74
74
74
74
74
74
74
75
75
75
75
75
75
75
75
76
76
76
76
76
76
76
76
Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 1 of 4 Joint OutputC CaseTy S11Top S22Top ase pe Kgf/m2 Kgf/m2 88 COMB3 Combina 132905.04 360844.46 tion 93 COMB3 Combina 156366.26 1067895.38 tion 92 COMB3 Combina 101544.82 940231.55 tion 88 COMB3 Combina 54877.34 357037.61 tion 89 COMB3 Combina 70003.00 458492.45 tion 94 COMB3 Combina 37790.18 1123194.91 tion 93 COMB3 Combina 15040.10 1027831.45 tion 91 COMB3 Combina -21394.06 856415.11 tion 90 COMB3 Combina -5243.88 906595.96 tion 95 COMB3 Combina 49121.29 1745609.16 tion 96 COMB3 Combina 14850.63 1709846.14 tion 90 COMB3 Combina 94420.96 934645.40 tion 92 COMB3 Combina 96100.19 904215.85 tion 97 COMB3 Combina 38432.73 1691583.36 tion 95 COMB3 Combina 23583.99 1732385.23 tion 92 COMB3 Combina 113287.51 915101.84 tion 93 COMB3 Combina 127197.27 1005893.62 tion 98 COMB3 Combina 46487.88 1761555.11 tion 97 COMB3 Combina 20311.75 1680510.63 tion 93 COMB3 Combina 14234.07 991983.08 tion 94 COMB3 Combina 15136.20 1041743.29 tion 99 COMB3 Combina 38137.90 1793099.84 tion 98 COMB3 Combina 29501.38 1749475.72 tion 96 COMB3 Combina 28875.01 1713291.75 tion 95 COMB3 Combina 25478.18 1694069.87 tion 100 COMB3 Combina 12131.77 2577112.91 tion 101 COMB3 Combina -1537.91 2609732.69 tion 95 COMB3 Combina 29608.40 1703425.96 tion 97 COMB3 Combina 35219.64 1734599.20 tion 102 COMB3 Combina 38218.25 2589559.19 tion 100 COMB3 Combina 18135.86 2569783.67 tion
SAP2000 v12.0.0
S12Top
SMaxTop
Kgf/m2 288895.20
Kgf/m2 557438.01
400461.43
1218835.60
494192.77
1169020.38
301405.13
543107.68
172897.20
524294.74
259446.74
1182022.65
387954.67
1159358.50
820891.91
1348370.75
727076.10
1308873.35
761776.64
2037462.34
855592.46
2066628.63
761613.25
1384331.45
592772.24
1217543.31
558688.79
1862685.30
727529.81
2000170.00
538073.76
1185201.33
356937.05
1132611.59
431860.34
1864160.68
612997.05
1882317.42
373602.39
1118394.71
273830.09
1110215.86
315664.92
1848151.54
415437.22
1844562.38
884293.51
2092267.21
732889.99
1970259.19
708244.63
2759679.51
859648.15
2867324.33
710012.37
1964029.77
576406.12
1911659.99
597360.16
2722495.94
730966.41
2764346.97
Page 16 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
ShellTy pe
77
77
77
77
77
77
77
77
78
78
78
78
78
78
78
78
79
79
79
79
79
79
79
79
80
80
80
80
80
80
80
80
81
81
81
81
81
81
81
81
82
82
82
82
82
82
82
82
83
83
83
83
83
83
83
83
84
84
84
84
84
84
Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 1 of 4 Joint OutputC CaseTy S11Top S22Top ase pe Kgf/m2 Kgf/m2 97 COMB3 Combina 40090.42 1741938.21 tion 98 COMB3 Combina 35185.34 1742508.17 tion 103 COMB3 Combina 32402.78 2573161.40 tion 102 COMB3 Combina 26711.06 2580892.89 tion 98 COMB3 Combina 34300.41 1745923.56 tion 99 COMB3 Combina 30764.92 1783782.22 tion 104 COMB3 Combina 5497.01 2594354.51 tion 103 COMB3 Combina 443.04 2563177.07 tion 101 COMB3 Combina 583.17 2566085.79 tion 100 COMB3 Combina -765.72 2566877.77 tion 105 COMB3 Combina 28487.07 3507890.04 tion 106 COMB3 Combina 12538.50 3520532.21 tion 100 COMB3 Combina 28285.02 2578075.97 tion 102 COMB3 Combina 24424.07 2563041.78 tion 107 COMB3 Combina 51679.80 3479382.30 tion 105 COMB3 Combina 41750.92 3505154.76 tion 102 COMB3 Combina 32377.70 2569736.45 tion 103 COMB3 Combina 29360.31 2597438.71 tion 108 COMB3 Combina 48450.84 3490942.62 tion 107 COMB3 Combina 40295.10 3472001.42 tion 103 COMB3 Combina 12511.88 2598826.21 tion 104 COMB3 Combina 4252.37 2612826.42 tion 109 COMB3 Combina 14506.80 3486658.46 tion 108 COMB3 Combina 14258.67 3479347.00 tion 106 COMB3 Combina 16970.69 3510042.53 tion 105 COMB3 Combina 13983.91 3468024.86 tion 110 COMB3 Combina 58926.71 4465216.51 tion 111 COMB3 Combina 44845.12 4520374.11 tion 105 COMB3 Combina 43594.82 3477991.19 tion 107 COMB3 Combina 44219.22 3478462.46 tion 112 COMB3 Combina 115692.77 4459454.58 tion
SAP2000 v12.0.0
S12Top
SMaxTop
Kgf/m2 588597.87
Kgf/m2 1925673.16
455990.99
1856661.61
452644.15
2651392.60
585251.03
2708608.00
438496.02
1851721.16
292749.13
1831378.25
324181.36
2634331.75
469928.25
2646630.19
847927.75
2821005.58
719985.09
2754985.64
713233.24
3648418.04
841175.90
3711807.02
726195.94
2770395.21
602010.64
2698568.07
582795.51
3575762.17
706980.80
3643910.91
581885.20
2696814.12
456104.96
2676039.74
476966.42
3555805.46
602746.66
3574789.40
461223.55
2678615.73
332885.39
2654636.46
343362.69
3520288.03
471700.84
3542411.64
839394.52
3701281.34
714958.90
3610166.22
669507.03
4564697.75
793942.66
4657043.20
695083.95
3613334.85
594677.85
3578522.29
588861.52
4537868.00
Page 17 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
ShellTy pe
84
84
85
85
85
85
85
85
85
85
86
86
86
86
86
86
86
86
87
87
87
87
87
87
87
87
88
88
88
88
88
88
88
88
89
89
89
89
89
89
89
89
90
90
90
90
90
90
90
90
91
91
91
91
91
91
91
91
92
92
92
92
Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 1 of 4 Joint OutputC CaseTy S11Top S22Top ase pe Kgf/m2 Kgf/m2 110 COMB3 Combina 101294.44 4469645.91 tion 107 COMB3 Combina 50044.60 3484194.77 tion 108 COMB3 Combina 40857.95 3489532.31 tion 113 COMB3 Combina 104353.10 4448601.37 tion 112 COMB3 Combina 102171.72 4452183.14 tion 108 COMB3 Combina 24453.09 3491383.56 tion 109 COMB3 Combina 16802.58 3537072.90 tion 114 COMB3 Combina 43955.28 4469838.33 tion 113 COMB3 Combina 42780.87 4431154.70 tion 111 COMB3 Combina 50647.00 4529274.88 tion 110 COMB3 Combina 53375.77 4457570.45 tion 115 COMB3 Combina 91165.74 5506894.04 tion 116 COMB3 Combina 72434.94 5590813.85 tion 110 COMB3 Combina 107197.97 4473294.38 tion 112 COMB3 Combina 99294.71 4403333.49 tion 117 COMB3 Combina 260344.71 5453353.54 tion 115 COMB3 Combina 253866.66 5534474.74 tion 112 COMB3 Combina 101845.63 4408480.15 tion 113 COMB3 Combina 98129.76 4459557.19 tion 118 COMB3 Combina 256050.39 5488513.27 tion 117 COMB3 Combina 248387.51 5446325.62 tion 113 COMB3 Combina 56599.29 4454864.39 tion 114 COMB3 Combina 45821.23 4524550.52 tion 119 COMB3 Combina 79121.77 5511409.68 tion 118 COMB3 Combina 79896.12 5449669.12 tion 116 COMB3 Combina 93016.18 5706860.65 tion 115 COMB3 Combina 84530.52 5460577.34 tion 120 COMB3 Combina 315637.37 6576223.72 tion 121 COMB3 Combina 309353.54 6833599.79 tion 115 COMB3 Combina 250968.02 5493003.28 tion 117 COMB3 Combina 255912.21 5458169.29 tion
SAP2000 v12.0.0
S12Top
SMaxTop
Kgf/m2 689267.62
Kgf/m2 4575822.44
590922.70
3583031.71
488827.31
3557481.62
490269.68
4503243.41
592365.07
4531405.95
469856.93
3553932.59
345272.02
3570617.91
384447.68
4502984.56
509032.59
4489426.53
800267.19
4667975.76
662979.13
4555206.58
589851.93
5570393.02
727139.99
5685018.69
660678.37
4571078.34
617536.55
4490184.09
548575.42
5510670.93
591717.24
5599967.20
561827.89
4480567.53
520813.55
4520886.97
563104.06
5548427.03
604118.41
5515614.28
511162.21
4513489.75
382529.85
4556987.60
443686.98
5547409.64
572319.34
5509990.25
658392.54
5783043.19
658340.59
5540022.48
428213.52
6605377.04
428265.47
6861591.95
562225.92
5552625.76
577712.63
5521552.25
Page 18 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
ShellTy pe
92
92
92
92
93
93
93
93
93
93
93
93
94
94
94
94
94
94
94
94
95
95
95
95
95
95
95
95
96
96
96
96
96
96
96
96
97
97
97
97
97
97
97
97
98
98
98
98
98
98
98
98
99
99
99
99
99
99
99
99
100
100
Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 1 of 4 Joint OutputC CaseTy S11Top S22Top ase pe Kgf/m2 Kgf/m2 122 COMB3 Combina 504810.66 6567183.94 tion 120 COMB3 Combina 487479.67 6611453.74 tion 117 COMB3 Combina 259644.69 5463614.67 tion 118 COMB3 Combina 235840.45 5426460.40 tion 123 COMB3 Combina 481025.33 6510713.82 tion 122 COMB3 Combina 490081.52 6559539.23 tion 118 COMB3 Combina 83479.02 5404994.04 tion 119 COMB3 Combina 76700.32 5561891.99 tion 124 COMB3 Combina 305341.16 6612660.15 tion 123 COMB3 Combina 299936.01 6465490.03 tion 123 COMB3 Combina 6527778.61 166979.53 tion 124 COMB3 Combina 6644109.60 144435.55 tion 125 COMB3 Combina 7484827.01 181855.62 tion 126 COMB3 Combina 7382446.05 190742.80 tion 122 COMB3 Combina 6356019.19 332623.14 tion 123 COMB3 Combina 6575027.23 355164.77 tion 126 COMB3 Combina 7500518.49 829162.84 tion 127 COMB3 Combina 7289048.97 798863.88 tion 120 COMB3 Combina 6704215.42 378440.13 tion 122 COMB3 Combina 6353168.25 334045.07 tion 127 COMB3 Combina 7300735.84 841621.61 tion 128 COMB3 Combina 7664483.95 874021.91 tion 121 COMB3 Combina 6923601.05 163932.81 tion 120 COMB3 Combina 6646891.01 173332.56 tion 128 COMB3 Combina 7552198.05 231077.95 tion 129 COMB3 Combina 7834512.58 216164.93 tion 126 COMB3 Combina 7053555.10 136307.68 tion 125 COMB3 Combina 7759018.11 225350.76 tion 130 COMB3 Combina 8677495.66 953798.57 tion 131 COMB3 Combina 7987813.02 848568.65 tion 127 COMB3 Combina 7444044.07 819237.38 tion
SAP2000 v12.0.0
S12Top
SMaxTop
Kgf/m2 539504.48
Kgf/m2 6614821.35
524017.77
6655969.44
576214.84
5526653.02
591568.77
5493027.11
555248.95
6561418.01
539895.02
6607190.27
503703.52
5452252.00
512693.59
5609401.28
651872.08
6679327.57
642882.01
6531809.93
-705414.48
6605070.09
-589926.92
6697218.91
-683655.32
7548275.02
-799142.87
7470176.69
-428510.03
6386351.05
-665669.29
6645471.43
-840611.19
7604807.77
-603451.94
7344680.56
-402229.57
6729688.94
-661500.22
6425009.51
-370104.25
7321873.47
-110833.59
7666292.49
-480127.62
6957533.35
-374919.89
6668532.37
-140010.12
7554874.65
-245217.85
7842397.44
-518578.46
7092216.27
-964713.21
7880591.24
-1529772.64
8969450.01
-1083637.89
8148669.84
-535871.30
7487109.99
Page 19 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
ShellTy pe
100
100
100
100
100
100
101
101
101
101
101
101
101
101
102
102
102
102
102
102
102
102
103
103
103
103
103
103
103
103
104
104
104
104
104
104
104
104
105
105
105
105
105
105
105
105
106
106
106
106
106
106
106
106
107
107
107
107
107
107
107
107
Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 1 of 4 Joint OutputC CaseTy S11Top S22Top ase pe Kgf/m2 Kgf/m2 126 COMB3 Combina 7184512.95 776587.25 tion 131 COMB3 Combina 8100050.96 1424268.06 tion 132 COMB3 Combina 8383854.19 1442842.26 tion 128 COMB3 Combina 7488753.46 859132.87 tion 127 COMB3 Combina 7445034.27 850224.23 tion 132 COMB3 Combina 8407983.33 1537452.08 tion 133 COMB3 Combina 8453147.31 1545479.74 tion 129 COMB3 Combina 8285843.75 302307.96 tion 128 COMB3 Combina 7341806.18 193122.77 tion 133 COMB3 Combina 8336783.94 894936.64 tion 134 COMB3 Combina 9285914.99 999860.18 tion 131 COMB3 Combina 8234330.12 861281.84 tion 130 COMB3 Combina 6645969.68 584083.60 tion 135 COMB3 Combina 7568698.78 1566746.61 tion 136 COMB3 Combina 9212995.62 1789592.27 tion 132 COMB3 Combina 8924959.18 1558282.67 tion 131 COMB3 Combina 8319860.52 1461010.56 tion 136 COMB3 Combina 9265270.83 1878891.65 tion 137 COMB3 Combina 9894586.20 1953079.76 tion 133 COMB3 Combina 9175531.07 1692102.28 tion 132 COMB3 Combina 8929522.62 1639614.15 tion 137 COMB3 Combina 9913670.26 1989985.78 tion 138 COMB3 Combina 10174593.69 2027667.01 tion 134 COMB3 Combina 8346182.71 854306.08 tion 133 COMB3 Combina 9050191.11 995225.72 tion 138 COMB3 Combina 10157586.11 2012805.85 tion 139 COMB3 Combina 9422135.92 1903138.55 tion 155 COMB3 Combina -4775544.60 366358.28 tion 1 COMB3 Combina -1035174.93 129580.41 tion 2 COMB3 Combina -1331343.91 53869.88 tion 156 COMB3 Combina -5078520.64 296891.98 tion
SAP2000 v12.0.0
S12Top
SMaxTop
Kgf/m2 -911207.61
Kgf/m2 7311567.55
-689947.01
8170611.68
-314610.70
8398085.17
-33443.03
7488922.16
-445406.08
7474980.51
-409785.90
8432338.26
2177.15
8453147.99
16079.54
8285876.14
-400998.16
7364229.44
369886.86
8355123.47
786964.56
9359994.33
-991246.12
8365269.68
-1629245.67
7056110.36
-324109.75
7586150.20
313889.80
9226244.43
-412515.57
8947987.04
-591833.92
8370553.80
-91837.89
9266412.52
87480.46
9895549.73
-144637.33
9178325.53
-265486.61
8939178.42
-61798.04
9914152.20
59051.24
10175021.69
921400.04
8457838.45
242090.25
9057460.52
-336747.16
10171485.25
342562.63
9437710.68
277856.47
381329.41
40326.20
130974.92
-782169.21
406008.40
-544638.94
351519.85
Page 20 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
ShellTy pe
109
108
109
108
109
108
109
108
110
109
110
109
110
109
110
109
111
110
111
110
111
110
111
110
112
111
112
111
112
111
112
111
113
112
113
112
113
112
113
112
114
113
114
113
114
113
114
113
115
114
115
114
115
114
115
114
116
115
116
115
116
115
Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 1 of 4 Joint OutputC CaseTy S11Top S22Top ase pe Kgf/m2 Kgf/m2 156 COMB3 Combina -5226450.01 -614753.92 tion 2 COMB3 Combina -1301619.65 374490.22 tion 5 COMB3 Combina -770364.98 457902.02 tion 157 COMB3 Combina -4693181.75 -532321.70 tion 157 COMB3 Combina -4703290.14 -586099.43 tion 5 COMB3 Combina -774084.16 442541.89 tion 7 COMB3 Combina -1425231.27 364829.78 tion 158 COMB3 Combina -5376338.10 -643220.86 tion 158 COMB3 Combina -5228411.72 254747.93 tion 7 COMB3 Combina -1458676.01 39269.20 tion 9 COMB3 Combina -1312496.15 114884.55 tion 159 COMB3 Combina -5094350.62 342759.80 tion 160 COMB3 Combina -16870658.5 -2067294.61 tion 155 COMB3 Combina -5790081.96 202164.74 tion 156 COMB3 Combina -4247507.27 424380.72 tion 161 COMB3 Combina -15323441.7 -1849215.46 tion 161 COMB3 Combina -15554500.4 -3125444.93 tion 156 COMB3 Combina -4455456.50 -494429.33 tion 157 COMB3 Combina -4998037.20 -559418.68 tion 162 COMB3 Combina -16131941.9 -3155301.58 tion 162 COMB3 Combina -16146335.6 -3257128.51 tion 157 COMB3 Combina -5012915.94 -603953.90 tion 158 COMB3 Combina -4754094.58 -562842.85 tion 163 COMB3 Combina -15878529.5 -3226050.41 tion 163 COMB3 Combina -15631303.3 -1893760.39 tion 158 COMB3 Combina -4550459.61 359172.80 tion 159 COMB3 Combina -6317771.17 129241.24 tion 164 COMB3 Combina -17423724.1 -2099452.59 tion 168 COMB3 Combina -35207126. -7020820.17 tion 163 COMB3 Combina -16720380.2 -2049653.00 tion 164 COMB3 Combina -15890487.9 -1854728.12 tion
SAP2000 v12.0.0
S12Top
SMaxTop
Kgf/m2 -880362.56
Kgf/m2 -452409.62
-450675.67
487983.83
-278590.37
518136.78
-708277.25
-415060.73
-222356.66
-574125.47
-762800.85
809887.55
-569592.39
530702.23
-29148.20
-643041.36
-353121.24
277395.76
-249979.73
79884.99
-1062617.27
681236.93
-1165758.78
582166.05
-1407565.01
-1934646.14
-156978.31
206274.27
-106734.65
426817.92
-1357321.35
-1713846.18
-502722.42
-3105144.29
-961433.84
-273400.48
-632659.11
-471003.70
-173947.69
-3152970.29
-517696.28
-3236368.63
-304307.49
-583049.65
59674.89
-561993.38
-153713.91
-3224183.23
675822.30
-1860593.19
-770928.90
477380.88
-748794.53
215068.12
697956.67
-2067729.25
-541428.78
-7010423.74
146810.28
-2048184.01
1243519.20
-1745408.13
Page 21 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
ShellTy pe
116
115
117
116
117
116
117
116
117
116
118
117
118
117
118
117
118
117
119
118
119
118
119
118
119
118
Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck Plate-Thi ck
SAP2000 v12.0.0
Table: Element Stresses - Area Shells, Part 1 of 4 Joint OutputC CaseTy S11Top S22Top ase pe Kgf/m2 Kgf/m2 169 COMB3 Combina -34318827. -6884370.33 tion 167 COMB3 Combina -34825151. -6974584.99 tion 162 COMB3 Combina -16540916.3 -3339074.58 tion 163 COMB3 Combina -16947784.5 -3436871.48 tion 168 COMB3 Combina -35261552. -7042755.66 tion 166 COMB3 Combina -34401364. -6907207.76 tion 161 COMB3 Combina -16120510.5 -3217698.09 tion 162 COMB3 Combina -16525416.2 -3254945.29 tion 167 COMB3 Combina -34816168. -6936298.58 tion 165 COMB3 Combina -32587564. -6573125.17 tion 160 COMB3 Combina -14220708.3 -1589703.67 tion 161 COMB3 Combina -15896147.0 -1911357.44 tion 166 COMB3 Combina -34345724. -6813532.53 tion
S12Top
SMaxTop
Kgf/m2 555280.14
Kgf/m2 -6873135.92
12040.61
-6974579.78
-325462.56
-3331055.89
-351951.88
-3427709.54
-14448.72
-7042748.26
-14121.09
-6907200.51
-350093.62
-3208205.94
-320451.75
-3247211.62
15520.77
-6936289.94
-534486.39
-6562148.37
-1918176.99
-1304829.30
-861262.25
-1858515.71
522428.36
-6803622.93
Table: Element Stresses - Area Shells, Part 2 of 4 Area
AreaEle m
Joint
1 1 1 1 2 2 2 2 3 3 3 3 4 4 4 4 5 5 5 5 6 6 6 6 7
1 1 1 1 2 2 2 2 3 3 3 3 4 4 4 4 5 5 5 5 6 6 6 6 7
1 2 3 4 2 5 6 3 5 7 8 6 7 9 10 8 4 3 11 12 3 6 13 11 6
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 2 of 4 OutputC SMinTop SAngleTop SVMTop ase Kgf/m2 Degrees Kgf/m2 COMB3 -184062.30 73.171 1282842.96 COMB3 -169920.58 73.996 1297497.41 COMB3 -260293.72 70.972 1159313.65 COMB3 -281742.60 70.238 1157011.41 COMB3 -379101.35 78.739 1354395.41 COMB3 -406254.35 75.191 1634543.46 COMB3 -390685.04 66.513 1544483.56 COMB3 -349862.80 68.713 1239041.58 COMB3 -465936.32 71.428 1759225.53 COMB3 -631298.66 67.448 1866083.65 COMB3 -456956.27 64.999 1488142.10 COMB3 -290928.61 70.139 1381593.51 COMB3 -332823.96 66.720 1675863.90 COMB3 -336076.19 67.850 1730330.32 COMB3 -472306.38 63.914 1625151.81 COMB3 -486759.81 63.074 1596217.89 COMB3 -238994.32 72.056 1077983.04 COMB3 -287260.50 69.968 1282012.51 COMB3 -292802.62 62.896 1254246.89 COMB3 -243443.88 63.993 1045969.48 COMB3 -345699.61 68.226 1361422.44 COMB3 -398222.38 66.672 1410936.43 COMB3 -378749.11 64.052 1239284.20 COMB3 -329413.36 65.968 1192306.87 COMB3 -358118.03 67.565 1363814.39
S11Bot
S22Bot
S12Bot
Kgf/m2 69657.22 65477.59 125576.02 136339.49 321762.00 288708.52 120299.54 168467.86 268610.41 322436.09 159909.54 117345.26 48966.24 69712.33 122524.69 121138.91 127233.38 122838.06 7431.60 23057.88 139174.04 152463.06 113696.65 110090.40 138602.57
Kgf/m2 -1066464.75 -1099722.31 -872322.12 -844716.84 -1067110.94 -1275557.05 -1041240.25 -845098.25 -1282029.49 -1159686.71 -909034.35 -1039378.29 -1200621.25 -1271274.63 -986901.23 -930547.90 -826668.52 -949590.79 -796574.21 -682393.62 -948720.96 -923269.04 -740661.76 -773645.09 -929508.08
Kgf/m2 -378241.51 -364150.10 -390619.25 -404710.65 -287966.80 -444623.34 -622231.34 -465574.80 -587298.01 -743752.88 -636995.33 -480540.45 -659757.73 -654324.21 -714425.71 -719859.24 -345107.92 -450961.32 -557563.07 -451709.68 -517040.58 -569884.93 -544704.14 -491859.79 -531652.00
Page 22 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
Joint
7 7 7 8 8 8 8 9 9 9 9 10 10 10 10 11 11 11 11 12 12 12 12 13 13 13 13 14 14 14 14 15 15 15 15 16 16 16 16 17 17 17 17 18 18 18 18 19 19 19 19 20 20 20 20 21
7 7 7 8 8 8 8 9 9 9 9 10 10 10 10 11 11 11 11 12 12 12 12 13 13 13 13 14 14 14 14 15 15 15 15 16 16 16 16 17 17 17 17 18 18 18 18 19 19 19 19 20 20 20 20 21
8 14 13 8 10 15 14 12 11 16 17 11 13 18 16 13 14 19 18 14 15 20 19 17 16 21 22 16 18 23 21 18 19 24 23 19 20 25 24 22 21 26 27 21 23 28 26 23 24 29 28 24 25 30 29 27
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 2 of 4 OutputC SMinTop SAngleTop SVMTop ase Kgf/m2 Degrees Kgf/m2 COMB3 -392839.65 67.030 1475774.50 COMB3 -435793.06 62.481 1389109.03 COMB3 -409078.51 63.075 1287185.91 COMB3 -417942.97 65.082 1559956.51 COMB3 -548693.56 61.888 1657007.40 COMB3 -430464.69 58.775 1367132.46 COMB3 -298548.85 62.843 1267051.35 COMB3 -275713.92 62.684 1132564.77 COMB3 -272566.36 63.609 1148121.12 COMB3 -331683.92 61.475 1127923.09 COMB3 -342633.94 60.907 1123456.02 COMB3 -338918.30 65.187 1162579.15 COMB3 -371375.30 64.703 1264009.63 COMB3 -387657.26 60.958 1234767.98 COMB3 -361611.51 61.540 1141453.85 COMB3 -391065.87 63.588 1316359.19 COMB3 -450593.45 62.099 1364796.24 COMB3 -413829.45 59.954 1220953.39 COMB3 -358469.09 61.889 1176666.29 COMB3 -355020.50 60.956 1329832.77 COMB3 -357496.53 60.904 1313656.63 COMB3 -405617.64 58.999 1205739.07 COMB3 -410494.09 59.526 1230928.99 COMB3 -333681.41 60.738 1080350.53 COMB3 -356722.10 60.994 1150357.18 COMB3 -363063.47 58.875 1171887.81 COMB3 -346955.43 58.939 1110888.31 COMB3 -375953.70 60.888 1174120.23 COMB3 -383543.68 61.196 1188066.32 COMB3 -403307.03 60.014 1167171.70 COMB3 -402237.69 60.068 1161795.70 COMB3 -380666.02 60.954 1199183.60 COMB3 -387997.72 60.954 1201035.25 COMB3 -404477.51 59.799 1147886.62 COMB3 -404211.59 60.228 1155163.69 COMB3 -375759.29 60.307 1219534.35 COMB3 -415641.27 59.132 1245733.52 COMB3 -387435.64 57.516 1134125.02 COMB3 -352573.00 59.209 1113540.97 COMB3 -383914.50 57.572 1141421.72 COMB3 -347842.35 59.454 1119664.62 COMB3 -399576.84 59.708 1206203.54 COMB3 -441354.44 58.365 1235596.62 COMB3 -402833.56 59.767 1167627.82 COMB3 -406855.55 60.164 1157261.31 COMB3 -401225.36 60.514 1153102.51 COMB3 -404325.74 60.542 1172908.14 COMB3 -401005.88 60.078 1162086.20 COMB3 -400828.44 60.208 1148343.74 COMB3 -399364.96 60.319 1126219.73 COMB3 -405928.10 60.569 1148346.82 COMB3 -363938.00 58.849 1164918.19 COMB3 -357173.08 58.555 1101356.44 COMB3 -350823.94 59.623 1019513.93 COMB3 -364698.72 60.322 1092174.42 COMB3 -408272.80 58.790 1197951.21
SAP2000 v12.0.0
S11Bot
S22Bot
S12Bot
Kgf/m2 144233.35 103885.35 113399.36 111498.90 135322.03 19146.68 9032.10 13547.60 23641.30 45135.37 45966.75 110968.82 114257.27 61956.01 71286.32 100682.87 114876.04 69353.98 66690.42 8247.72 13350.26 45839.35 54605.81 45095.06 54230.25 12919.68 16072.81 64437.35 74219.20 74749.92 76221.32 64011.24 70473.15 76688.82 82949.83 41258.68 47008.73 19076.36 25750.52 14727.99 24381.55 54765.62 57395.87 69254.43 83655.88 86239.08 84706.15 75185.21 81136.03 87611.54 92964.76 15151.69 20903.93 57107.56 63682.58 46142.57
Kgf/m2 -990998.99 -787052.98 -737254.28 -1001969.38 -899693.12 -688773.28 -801600.12 -707085.25 -738385.45 -638343.11 -615577.06 -727509.61 -779602.04 -668722.35 -626523.25 -786130.49 -746805.78 -615779.91 -663961.90 -769519.71 -753757.69 -590847.95 -617341.28 -585557.97 -627246.22 -597244.18 -565120.51 -628581.45 -639593.06 -583475.76 -581207.19 -645991.54 -641550.30 -563106.65 -577478.89 -652935.75 -616142.20 -521278.71 -567751.75 -530781.50 -580997.88 -610900.57 -570355.14 -579296.94 -575690.64 -583905.04 -597638.83 -582657.92 -574514.66 -560362.41 -577286.76 -590715.26 -542171.52 -504062.58 -562144.48 -578317.18
Kgf/m2 -586541.57 -637080.86 -582191.30 -659639.09 -773771.17 -678500.36 -564368.28 -507599.10 -501648.52 -527218.97 -533169.55 -493043.30 -544000.94 -586569.82 -535612.18 -584668.98 -634025.06 -595546.11 -546190.03 -624467.73 -618412.48 -598754.28 -604809.53 -515053.33 -545566.12 -579867.03 -549354.23 -559400.68 -562566.65 -569398.37 -566232.40 -570171.93 -571757.63 -563172.39 -561586.69 -586599.63 -616724.38 -578561.46 -548436.70 -581113.95 -548127.18 -590274.47 -623261.24 -572379.46 -563523.38 -557048.08 -565904.15 -566125.43 -558399.31 -546990.21 -554716.34 -577035.52 -549928.95 -501092.97 -528199.54 -597724.06
Page 23 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
Joint
21 21 21 22 22 22 22 23 23 23 23 24 24 24 24 25 25 25 25 26 26 26 26 27 27 27 27 28 28 28 28 29 29 29 29 30 30 30 30 31 31 31 31 32 32 32 32 33 33 33 33 34 34 34 34 35
21 21 21 22 22 22 22 23 23 23 23 24 24 24 24 25 25 25 25 26 26 26 26 27 27 27 27 28 28 28 28 29 29 29 29 30 30 30 30 31 31 31 31 32 32 32 32 33 33 33 33 34 34 34 34 35
26 31 32 26 28 33 31 28 29 34 33 29 30 35 34 32 31 36 37 31 33 38 36 33 34 39 38 34 35 40 39 37 36 41 42 36 38 43 41 38 39 44 43 39 40 45 44 42 41 46 47 41 43 48 46 43
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 2 of 4 OutputC SMinTop SAngleTop SVMTop S11Bot ase Kgf/m2 Degrees Kgf/m2 Kgf/m2 COMB3 -445563.73 58.792 1229649.25 72306.99 COMB3 -371309.41 59.894 1257849.49 18638.85 COMB3 -341911.05 60.386 1237935.86 6643.57 COMB3 -430052.53 59.451 1199023.37 80061.59 COMB3 -370895.74 61.898 1135843.71 88021.35 COMB3 -440129.56 63.151 1250323.03 152347.45 COMB3 -503370.10 61.194 1318746.85 155957.24 COMB3 -410119.52 60.458 1220490.90 76402.33 COMB3 -381605.95 60.997 1071582.94 97114.55 COMB3 -378796.24 65.627 1017869.89 182440.03 COMB3 -413453.07 64.895 1174211.50 174928.06 COMB3 -343708.16 60.649 1060710.13 57811.90 COMB3 -379344.82 59.011 1042985.11 66647.12 COMB3 -290348.93 60.807 947491.05 38483.19 COMB3 -263692.35 63.021 979852.08 40448.34 COMB3 -482802.07 56.476 1392959.22 3879.29 COMB3 -214848.00 66.033 1186902.73 3693.86 COMB3 -588691.25 66.678 1691472.43 289777.34 COMB3 -846051.03 60.007 1898137.68 302756.54 COMB3 -462771.65 62.397 1499219.21 102936.38 COMB3 -427969.19 63.895 1146193.46 176535.91 COMB3 -448964.22 75.724 1117564.99 371604.32 COMB3 -472187.34 71.912 1446318.79 315704.91 COMB3 -382121.98 65.350 1103496.21 165767.80 COMB3 -444759.15 63.649 1035170.15 211640.79 COMB3 -312698.49 69.603 942221.81 184085.81 COMB3 -265476.13 71.428 1041422.77 148977.29 COMB3 -296225.83 61.315 984923.71 43017.85 COMB3 -308280.42 60.044 873338.89 62517.92 COMB3 -228607.65 66.499 779412.51 90563.74 COMB3 -227664.83 67.523 909386.08 81272.92 COMB3 -452876.15 67.581 2548844.31 53615.88 COMB3 -657710.96 65.728 1565614.19 355715.81 COMB3 -712523.07 -81.762 1627978.88 674282.05 COMB3 -401985.80 89.255 2429993.39 401545.06 COMB3 -391002.46 74.613 1251440.04 292418.23 COMB3 -606662.11 69.850 1136964.96 451019.32 COMB3 -324944.52 83.950 985502.45 312648.10 COMB3 -168576.53 87.814 1237823.71 166664.91 COMB3 -291559.55 68.849 959672.35 152036.77 COMB3 -379721.62 67.712 825533.80 243490.79 COMB3 -277993.77 79.595 752435.24 250207.66 COMB3 -204935.02 79.525 919409.19 171731.74 COMB3 -235814.98 66.574 755984.04 102132.94 COMB3 -332881.65 61.297 751200.03 134483.98 COMB3 -135224.18 67.600 596328.01 40499.60 COMB3 -64176.23 74.627 658915.85 15780.13 COMB3 -774383.47 11.459 1565843.03 -956640.01 COMB3 -1010070.32 -4.276 1390839.52 -567466.57 COMB3 -423624.06 8.094 1025100.73 -722218.72 COMB3 -379833.16 22.790 1613139.19 -1123883.16 COMB3 -284256.01 -3.312 883724.95 -703310.98 COMB3 -490453.75 -6.422 851533.97 -480511.86 COMB3 -400051.51 3.079 812214.48 -531893.66 COMB3 -223999.72 5.887 911268.54 -767834.46 COMB3 -267593.07 -7.657 712067.64 -525178.54
SAP2000 v12.0.0
S22Bot
S12Bot
Kgf/m2 -571498.12 -677726.68 -695778.59 -574696.86 -621158.44 -682960.46 -645513.34 -628891.46 -544054.78 -577803.76 -673035.13 -560338.32 -487524.36 -516476.31 -597779.09 -608401.88 -853649.80 -1019551.96 -784701.09 -853438.04 -619197.82 -745905.49 -994729.70 -645291.33 -505345.05 -617505.07 -766491.01 -549606.24 -431627.93 -501500.91 -627531.04 -1892790.24 -827473.75 -1111999.48 -2203493.27 -910671.76 -549321.82 -769701.22 -1142984.41 -640556.94 -431116.84 -546097.34 -766445.88 -476287.75 -328842.89 -422379.42 -576083.50 703255.12 1001252.02 400451.33 114388.42 280949.63 478153.57 397354.39 213452.97 253266.00
Kgf/m2 -616137.31 -608246.78 -589833.52 -593003.53 -529742.13 -568511.41 -631772.81 -588842.79 -513169.08 -433398.59 -509072.30 -508393.06 -520641.91 -450790.01 -438541.15 -722912.47 -474992.36 -693344.27 -941264.38 -688199.59 -513120.50 -304031.26 -479110.36 -471471.28 -470623.76 -345884.34 -346731.85 -462786.59 -426429.04 -317469.75 -353827.30 -967745.51 -669715.30 264143.16 -33887.05 -358224.17 -424170.44 -116018.17 -50071.91 -360626.51 -332357.03 -151321.81 -179591.29 -308537.43 -362332.17 -229823.34 -176028.61 -350891.49 117945.77 -162948.77 -631786.03 57142.51 109284.28 -50135.45 -102277.21 106574.37
Page 24 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
Joint
35 35 35 36 36 36 36 37 37 37 37 38 38 38 38 39 39 39 39 40 40 40 40 41 41 41 41 42 42 42 42 43 43 43 43 44 44 44 44 45 45 45 45 46 46 46 46 47 47 47 47 48 48 48 48 49
35 35 35 36 36 36 36 37 37 37 37 38 38 38 38 39 39 39 39 40 40 40 40 41 41 41 41 42 42 42 42 43 43 43 43 44 44 44 44 45 45 45 45 46 46 46 46 47 47 47 47 48 48 48 48 49
44 49 48 44 45 50 49 47 46 51 52 46 48 53 51 48 49 54 53 49 50 55 54 52 51 56 57 51 53 58 56 53 54 59 58 54 55 60 59 61 62 63 64 62 42 47 63 64 63 65 66 63 47 52 65 66
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 2 of 4 OutputC SMinTop SAngleTop SVMTop S11Bot ase Kgf/m2 Degrees Kgf/m2 Kgf/m2 COMB3 -433967.24 -16.443 712524.21 -322478.46 COMB3 -220966.83 -6.675 536662.39 -382635.60 COMB3 -106486.64 3.776 653804.21 -590985.75 COMB3 -145326.81 -21.105 546258.58 -380555.82 COMB3 -197674.33 -24.745 466242.01 -241538.40 COMB3 -117552.32 -13.118 365420.05 -271071.07 COMB3 -80294.99 -10.431 476633.51 -414613.66 COMB3 -602778.06 32.899 935656.48 -157104.89 COMB3 -600095.15 18.010 895473.49 -330798.70 COMB3 -275519.79 10.699 617764.14 -407675.03 COMB3 -250774.80 32.492 616033.89 -248556.21 COMB3 -327273.96 13.109 646486.41 -379101.43 COMB3 -460703.42 -0.905 607180.55 -227169.11 COMB3 -251209.27 9.658 473644.96 -279743.00 COMB3 -183975.48 23.132 662986.32 -438053.84 COMB3 -161316.59 1.846 392121.06 -285267.94 COMB3 -254247.80 -4.807 405418.43 -210008.87 COMB3 -180013.43 1.616 355112.24 -228730.85 COMB3 -105429.80 8.894 383598.04 -309693.28 COMB3 -104132.88 -9.355 317496.29 -242934.05 COMB3 -176436.57 -21.757 312070.22 -134378.44 COMB3 -49552.49 -10.757 186779.52 -149811.48 COMB3 -15218.57 6.002 271537.93 -260559.62 COMB3 -265523.67 35.772 471179.99 -92595.10 COMB3 -410146.03 23.553 474328.07 -26344.34 COMB3 -348175.12 27.884 445598.06 -44153.89 COMB3 -221458.21 39.131 490738.92 -116971.13 COMB3 -279310.10 32.699 422010.81 -64470.29 COMB3 -325060.33 18.013 410087.78 -91615.69 COMB3 -200060.67 16.650 291133.54 -106518.21 COMB3 -161514.17 35.693 324277.54 -84722.73 COMB3 -159503.22 16.993 266714.52 -122104.78 COMB3 -217039.66 -1.993 240647.30 -41438.38 COMB3 -111332.89 15.413 155367.19 -53625.85 COMB3 -100824.40 30.623 283950.25 -136590.95 COMB3 -46630.58 4.092 105086.12 -73088.96 COMB3 -69201.81 -8.455 103002.35 -46612.63 COMB3 -35476.34 1.306 70260.37 -45406.74 COMB3 -23577.28 16.002 94683.35 -72744.86 COMB3 -881931.42 70.609 2275455.49 597046.55 COMB3 -1242480.41 49.528 3156995.18 -269628.27 COMB3 -1212910.81 40.918 1710124.41 96064.00 COMB3 -933897.06 89.730 1032324.87 933872.44 COMB3 -2380899.28 39.034 3264830.32 135296.81 COMB3 -1738202.03 19.913 2565773.05 -866845.66 COMB3 -289779.96 1.846 1212773.97 -1040253.37 COMB3 -802551.59 46.534 1599988.14 -69346.56 COMB3 -404547.25 53.142 883089.62 40107.50 COMB3 -594249.78 36.514 890534.22 -67144.01 COMB3 -495449.85 36.745 613002.02 55284.68 COMB3 -340864.12 59.350 642670.58 148215.42 COMB3 -416345.47 45.456 842711.21 -60857.78 COMB3 -656506.84 30.432 959011.00 -161685.07 COMB3 -517478.27 25.778 734347.63 -164046.28 COMB3 -257291.09 44.873 582381.46 -77546.34 COMB3 -228103.09 54.319 553121.96 13533.02
SAP2000 v12.0.0
S22Bot
S12Bot
Kgf/m2 368082.25 212700.99 103448.08 66983.69 104373.45 96446.71 63522.44 284775.35 501704.06 251130.92 48236.17 288967.20 460531.68 235831.36 70460.06 160852.81 250965.17 179688.19 95264.67 94714.00 126929.59 42357.37 12169.58 79622.20 327203.26 238333.97 -2551.51 137628.38 281005.21 172642.25 34434.93 133202.49 216726.57 98794.56 17635.81 46017.91 66642.95 35434.28 15655.27 -1417591.84 -834613.43 373798.21 -174565.51 904727.16 1396365.84 288398.40 -167969.78 -243905.78 231743.90 250090.42 -207781.94 -76302.77 374142.80 358517.50 -74586.85 -188022.02
Kgf/m2 223245.19 70634.82 -46036.00 202976.07 202432.54 90565.64 91109.18 -491573.84 -302641.14 -129082.74 -318015.43 -164496.05 10869.20 -90360.02 -265725.27 -14391.57 39038.23 -11530.03 -64959.83 57175.01 124046.41 37874.10 -28997.30 -258020.94 -190272.76 -207590.63 -275338.81 -220697.52 -135486.94 -91683.74 -176894.31 -86061.01 8995.90 -45478.66 -140535.57 -8564.39 17214.93 -1844.30 -27623.62 -809382.10 -1772227.88 -968070.36 -5224.58 -1820685.52 -943662.85 -42866.35 -919889.01 -486129.67 -489652.06 -328631.52 -325109.13 -484864.25 -480653.69 -329143.84 -333354.40 -298810.96
Page 25 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
Joint
49 49 49 50 50 50 50 51 51 51 51 52 52 52 52 53 53 53 53 54 54 54 54 55 55 55 55 56 56 56 56 57 57 57 57 58 58 58 58 59 59 59 59 60 60 60 60 61 61 61 61 62 62 62 62 63
49 49 49 50 50 50 50 51 51 51 51 52 52 52 52 53 53 53 53 54 54 54 54 55 55 55 55 56 56 56 56 57 57 57 57 58 58 58 58 59 59 59 59 60 60 60 60 61 61 61 61 62 62 62 62 63
65 67 68 65 52 57 67 69 70 71 72 70 73 74 71 73 75 76 74 75 61 64 76 72 71 77 78 71 74 79 77 74 76 80 79 76 64 66 80 78 77 81 82 77 79 83 81 79 80 84 83 80 66 68 84 61
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 2 of 4 OutputC SMinTop SAngleTop SVMTop S11Bot ase Kgf/m2 Degrees Kgf/m2 Kgf/m2 COMB3 -465065.02 37.448 645951.05 205.78 COMB3 -462460.02 34.614 552438.40 48115.35 COMB3 -215680.02 54.575 420273.26 52953.43 COMB3 -333175.63 44.874 622041.43 -27228.31 COMB3 -507285.56 28.651 643764.94 -50432.34 COMB3 -388821.39 27.439 497169.32 -52414.05 COMB3 -222494.47 47.406 496112.56 -37867.01 COMB3 12852.45 -27.161 269375.84 -220823.63 COMB3 -98203.74 -37.128 296369.71 -113476.09 COMB3 -196878.20 -71.548 231455.47 171336.67 COMB3 -64489.83 -80.551 123154.26 60662.20 COMB3 27619.64 -54.668 424970.52 -164905.06 COMB3 -100834.87 -64.431 285446.43 40820.40 COMB3 -355047.66 86.158 366354.58 353356.04 COMB3 -148920.29 -81.928 268207.66 142815.48 COMB3 -44623.68 -72.112 474646.16 -2115.66 COMB3 -313170.35 -72.818 451107.99 268050.37 COMB3 -569358.21 86.224 632426.45 566406.20 COMB3 -286999.56 85.821 547054.93 283649.87 COMB3 -183732.76 -77.811 1136461.74 129470.47 COMB3 -713602.75 81.072 1159394.87 681381.03 COMB3 -1334292.37 65.194 1479215.83 1054311.03 COMB3 -517741.07 80.255 779096.60 492070.92 COMB3 9283.60 -52.288 149873.23 -63543.29 COMB3 -30442.57 -72.411 89446.31 21247.28 COMB3 -194150.06 78.330 187899.08 186746.84 COMB3 -100806.73 -87.415 110494.31 100566.35 COMB3 642.86 -83.398 186798.70 -3107.66 COMB3 -75911.02 88.734 130407.41 75837.48 COMB3 -253006.52 78.735 266710.41 242376.49 COMB3 -161253.25 84.159 246653.99 158312.70 COMB3 -22892.51 -84.872 403787.71 19579.35 COMB3 -251912.93 73.530 410470.22 213839.63 COMB3 -544947.28 62.311 592204.39 408871.47 COMB3 -232151.88 76.184 350904.98 209132.00 COMB3 -272512.20 68.758 709388.26 166807.88 COMB3 -418083.57 50.770 856449.87 24024.23 COMB3 -513715.85 50.504 606423.17 243101.85 COMB3 -398504.93 77.337 491977.58 372081.20 COMB3 -3799.87 78.936 42782.13 2159.09 COMB3 -26252.49 59.669 44188.21 13242.05 COMB3 -73825.89 65.481 73027.26 61391.56 COMB3 -52399.68 78.339 61544.54 49631.11 COMB3 11088.76 -89.288 145871.10 -11110.37 COMB3 -114277.90 63.052 181146.21 71383.69 COMB3 -239613.69 52.138 264587.29 132646.71 COMB3 -72810.00 64.398 114606.22 48142.02 COMB3 -106268.73 65.414 314234.03 45061.95 COMB3 -219539.60 47.786 381373.68 20732.88 COMB3 -262710.44 44.670 314324.27 86584.32 COMB3 -143062.38 67.249 216285.18 105850.69 COMB3 -106189.57 57.941 380794.91 -12881.08 COMB3 -320090.31 43.904 449769.08 53143.52 COMB3 -411754.24 42.720 490130.92 119138.18 COMB3 -189161.44 55.001 375902.16 46745.35 COMB3 -1755602.03 5.805 1968341.56 -350534.63
SAP2000 v12.0.0
S22Bot
S12Bot
Kgf/m2 192378.24 265066.81 -105918.74 -24080.87 340797.91 269871.93 -85556.29 -67600.83 -23123.25 -32546.89 -73689.77 -300821.24 -161328.84 -19961.71 -154599.68 -404019.13 -158769.06 -108394.93 -340482.59 -979138.85 -591932.98 23641.00 -352601.10 -100039.54 -61056.10 20601.08 -17087.31 -184654.50 -74595.24 -14936.51 -119745.95 -388541.29 -183663.65 50805.98 -148503.61 -427019.80 -173050.27 115378.40 -124947.97 -39114.66 -11753.98 14058.68 -12606.07 -151077.42 -51688.20 62623.31 -34627.66 -186113.92 -22025.44 90600.79 -68539.79 -197358.03 72804.33 162231.15 -101331.29 1733831.83
Kgf/m2 -356035.07 -285987.45 -228763.34 -358826.77 -304718.13 -229095.44 -283204.08 106705.60 160257.54 76549.77 22997.84 193666.20 125433.72 -25186.78 43045.70 144807.70 145924.29 -44729.57 -45846.16 251197.29 -205101.44 -605770.53 -149471.80 70173.99 29006.16 -35844.41 5323.42 21296.75 -3326.82 -53368.92 -28745.34 36920.82 -128778.25 -259308.07 -93609.00 -271925.64 -482640.45 -328322.55 -117607.73 -8391.26 -22236.93 -27261.05 -13415.38 1739.22 -84374.08 -137594.07 -51480.78 -133775.19 -219145.51 -174106.30 -88735.98 -190114.73 -256928.39 -270211.88 -203398.22 -214128.52
Page 26 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
Joint
63 63 63 64 64 64 64 65 65 65 65 66 66 66 66 67 67 67 67 68 68 68 68 69 69 69 69 70 70 70 70 71 71 71 71 72 72 72 72 73 73 73 73 74 74 74 74 75 75 75 75 76 76 76 76 77
63 63 63 64 64 64 64 65 65 65 65 66 66 66 66 67 67 67 67 68 68 68 68 69 69 69 69 70 70 70 70 71 71 71 71 72 72 72 72 73 73 73 73 74 74 74 74 75 75 75 75 76 76 76 76 77
75 85 86 75 73 87 85 73 70 88 87 70 69 89 88 86 85 90 91 85 87 92 90 87 88 93 92 88 89 94 93 91 90 95 96 90 92 97 95 92 93 98 97 93 94 99 98 96 95 100 101 95 97 102 100 97
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 2 of 4 OutputC SMinTop SAngleTop SVMTop ase Kgf/m2 Degrees Kgf/m2 COMB3 -644605.25 -7.113 1163461.20 COMB3 -513581.24 41.689 1376597.61 COMB3 -1692542.49 34.307 2193487.11 COMB3 -682805.04 10.932 745794.25 COMB3 -301144.43 14.107 521004.32 COMB3 -38600.11 45.959 897749.15 COMB3 -335165.38 40.335 825451.00 COMB3 -354473.18 24.538 491764.89 COMB3 -79627.57 20.523 297368.72 COMB3 35058.19 60.659 682881.71 COMB3 -199489.37 53.879 735586.67 COMB3 -181991.44 39.433 257764.68 COMB3 -81076.59 48.869 218367.15 COMB3 24200.65 69.054 688983.58 COMB3 -41112.69 65.238 632654.48 COMB3 -921708.79 43.700 1969828.95 COMB3 -698859.76 39.605 1408222.98 COMB3 -347478.50 60.938 1291547.18 COMB3 -598190.42 58.818 1896515.16 COMB3 -493536.42 38.757 1058061.25 COMB3 -52078.89 41.805 639285.05 COMB3 -141140.14 63.885 1316720.29 COMB3 -497890.34 56.569 1571402.14 COMB3 -232339.67 50.061 691121.42 COMB3 -63688.50 55.765 591857.88 COMB3 5426.04 69.348 1216131.66 COMB3 -127244.02 65.158 1237558.30 COMB3 -131192.73 58.311 619216.65 COMB3 4200.70 69.164 522207.06 COMB3 -21037.56 77.225 1192680.60 COMB3 -116486.96 71.272 1221773.91 COMB3 -513349.71 59.066 1665478.12 COMB3 -407521.27 61.045 1553260.05 COMB3 -242731.89 69.037 2169038.64 COMB3 -341931.86 67.364 2257103.78 COMB3 -355265.08 59.441 1591977.22 COMB3 -217227.27 62.140 1339433.84 COMB3 -132669.22 72.972 1932438.53 COMB3 -244200.77 69.793 2132781.54 COMB3 -156811.97 63.345 1270883.92 COMB3 479.31 70.454 1132372.01 COMB3 -56117.69 76.635 1892843.53 COMB3 -181495.04 71.778 1979315.69 COMB3 -112177.56 71.306 1178494.51 COMB3 -53336.37 75.961 1137822.00 COMB3 -16913.81 80.107 1856666.23 COMB3 -65585.28 77.108 1878214.03 COMB3 -350100.45 66.802 2287499.97 COMB3 -250711.14 69.351 2106832.52 COMB3 -170434.83 75.545 2848723.32 COMB3 -259129.56 73.319 3005279.59 COMB3 -230995.41 69.845 2089127.49 COMB3 -141841.15 72.924 1986382.36 COMB3 -94718.50 77.454 2771069.56 COMB3 -176427.44 75.095 2856649.69 COMB3 -143644.53 72.664 2001365.36
SAP2000 v12.0.0
S11Bot
S22Bot
S12Bot
Kgf/m2 -677890.02 -356128.87 1673.55 -84443.85 -264719.77 -404278.24 -211221.14 -110112.54 -209002.35 -194650.01 -83640.30 6030.52 -25930.13 -110665.12 -73304.90 -260445.62 -263363.31 10109.50 28942.86 -245104.33 -316719.46 -126559.87 -36326.85 -88027.28 -132905.04 -156366.26 -101544.82 -54877.34 -70003.00 -37790.18 -15040.10 21394.06 5243.88 -49121.29 -14850.63 -94420.96 -96100.19 -38432.73 -23583.99 -113287.51 -127197.27 -46487.88 -20311.75 -14234.07 -15136.20 -38137.90 -29501.38 -28875.01 -25478.18 -12131.77 1537.91 -29608.40 -35219.64 -38218.25 -18135.86 -40090.42
Kgf/m2 624011.42 -176264.30 905312.80 654182.45 265404.78 -434948.15 -58764.55 257642.31 39181.28 -540143.71 -332136.65 62991.04 -59225.77 -614300.58 -496677.87 -157842.61 40123.07 -744892.60 -956046.42 17519.53 -242854.30 -972764.59 -727924.53 -224645.90 -360844.46 -1067895.38 -940231.55 -357037.61 -458492.45 -1123194.91 -1027831.45 -856415.11 -906595.96 -1745609.16 -1709846.14 -934645.40 -904215.85 -1691583.36 -1732385.23 -915101.84 -1005893.62 -1761555.11 -1680510.63 -991983.08 -1041743.29 -1793099.84 -1749475.72 -1713291.75 -1694069.87 -2577112.91 -2609732.69 -1703425.96 -1734599.20 -2589559.19 -2569783.67 -1741938.21
Kgf/m2 165031.03 -774574.49 -1153734.04 -148191.24 -142210.36 -457956.63 -463937.51 -212099.60 -108046.32 -283914.63 -387967.91 -144704.59 -122528.75 -225882.01 -248057.86 -1129688.65 -796148.00 -607068.49 -940609.13 -592963.30 -329804.30 -546069.88 -809228.87 -382626.54 -288895.20 -400461.43 -494192.77 -301405.13 -172897.20 -259446.74 -387954.67 -820891.91 -727076.10 -761776.64 -855592.46 -761613.25 -592772.24 -558688.79 -727529.81 -538073.76 -356937.05 -431860.34 -612997.05 -373602.39 -273830.09 -315664.92 -415437.22 -884293.51 -732889.99 -708244.63 -859648.15 -710012.37 -576406.12 -597360.16 -730966.41 -588597.87
Page 27 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
Joint
77 77 77 78 78 78 78 79 79 79 79 80 80 80 80 81 81 81 81 82 82 82 82 83 83 83 83 84 84 84 84 85 85 85 85 86 86 86 86 87 87 87 87 88 88 88 88 89 89 89 89 90 90 90 90 91
77 77 77 78 78 78 78 79 79 79 79 80 80 80 80 81 81 81 81 82 82 82 82 83 83 83 83 84 84 84 84 85 85 85 85 86 86 86 86 87 87 87 87 88 88 88 88 89 89 89 89 90 90 90 90 91
98 103 102 98 99 104 103 101 100 105 106 100 102 107 105 102 103 108 107 103 104 109 108 106 105 110 111 105 107 112 110 107 108 113 112 108 109 114 113 111 110 115 116 110 112 117 115 112 113 118 117 113 114 119 118 116
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 2 of 4 OutputC SMinTop SAngleTop SVMTop ase Kgf/m2 Degrees Kgf/m2 COMB3 -78968.10 75.945 1897378.54 COMB3 -45828.42 80.194 2674601.30 COMB3 -101004.06 77.690 2760496.25 COMB3 -71497.19 76.435 1888485.10 COMB3 -16831.11 80.765 1839851.55 COMB3 -34480.23 82.970 2651740.00 COMB3 -83010.08 79.930 2689096.31 COMB3 -254336.61 73.267 2956390.46 COMB3 -188873.60 75.358 2854113.37 COMB3 -112040.93 78.854 3705709.05 COMB3 -178736.31 77.189 3804325.53 COMB3 -164034.21 75.167 2855947.55 COMB3 -111102.22 77.313 2755799.38 COMB3 -44700.07 80.610 3598320.44 COMB3 -97005.23 78.896 3693369.08 COMB3 -94699.97 77.681 2745389.36 COMB3 -49240.72 80.222 2700996.75 COMB3 -16411.99 82.256 3564039.79 COMB3 -62492.88 80.322 3606441.94 COMB3 -67277.64 80.185 2712880.29 COMB3 -37557.67 82.841 2673613.16 COMB3 -19122.77 84.406 3529888.27 COMB3 -48805.96 82.385 3567065.05 COMB3 -174268.11 77.165 3791420.34 COMB3 -128157.44 78.756 3675920.85 COMB3 -40554.52 81.548 4585109.52 COMB3 -91823.98 80.233 4703627.46 COMB3 -91748.84 78.981 3660071.84 COMB3 -55840.61 80.449 3606766.80 COMB3 37279.35 82.415 4519343.65 COMB3 -4882.09 81.243 4578265.44 COMB3 -48792.34 80.505 3607675.35 COMB3 -27091.35 82.086 3571104.37 COMB3 49711.06 83.640 4478594.80 COMB3 22948.91 82.382 4519975.19 COMB3 -38095.94 82.417 3573132.88 COMB3 -16742.43 84.451 3579018.49 COMB3 10809.04 85.072 4497589.78 COMB3 -15490.96 83.469 4497192.02 COMB3 -88053.89 80.167 4712619.72 COMB3 -44260.35 81.622 4577497.24 COMB3 27666.77 83.856 5556611.29 COMB3 -21769.90 82.618 5695934.84 COMB3 9414.01 81.581 4566378.61 COMB3 12444.10 81.994 4483974.99 COMB3 203027.32 84.035 5412014.17 COMB3 188374.20 83.684 5508196.45 COMB3 29758.25 82.688 4465762.76 COMB3 36799.97 83.284 4502599.78 COMB3 196136.63 83.927 5453004.88 COMB3 179098.86 83.457 5428281.22 COMB3 -2026.07 83.457 4514503.13 COMB3 13384.14 85.153 4550310.29 COMB3 43121.81 85.361 5525974.92 COMB3 19574.99 83.983 5500228.88 COMB3 16833.64 83.400 5774644.77
SAP2000 v12.0.0
S11Bot
S22Bot
S12Bot
Kgf/m2 -35185.34 -32402.78 -26711.06 -34300.41 -30764.92 -5497.01 -443.04 -583.17 765.72 -28487.07 -12538.50 -28285.02 -24424.07 -51679.80 -41750.92 -32377.70 -29360.31 -48450.84 -40295.10 -12511.88 -4252.37 -14506.80 -14258.67 -16970.69 -13983.91 -58926.71 -44845.12 -43594.82 -44219.22 -115692.77 -101294.44 -50044.60 -40857.95 -104353.10 -102171.72 -24453.09 -16802.58 -43955.28 -42780.87 -50647.00 -53375.77 -91165.74 -72434.94 -107197.97 -99294.71 -260344.71 -253866.66 -101845.63 -98129.76 -256050.39 -248387.51 -56599.29 -45821.23 -79121.77 -79896.12 -93016.18
Kgf/m2 -1742508.17 -2573161.40 -2580892.89 -1745923.56 -1783782.22 -2594354.51 -2563177.07 -2566085.79 -2566877.77 -3507890.04 -3520532.21 -2578075.97 -2563041.78 -3479382.30 -3505154.76 -2569736.45 -2597438.71 -3490942.62 -3472001.42 -2598826.21 -2612826.42 -3486658.46 -3479347.00 -3510042.53 -3468024.86 -4465216.51 -4520374.11 -3477991.19 -3478462.46 -4459454.58 -4469645.91 -3484194.77 -3489532.31 -4448601.37 -4452183.14 -3491383.56 -3537072.90 -4469838.33 -4431154.70 -4529274.88 -4457570.45 -5506894.04 -5590813.85 -4473294.38 -4403333.49 -5453353.54 -5534474.74 -4408480.15 -4459557.19 -5488513.27 -5446325.62 -4454864.39 -4524550.52 -5511409.68 -5449669.12 -5706860.65
Kgf/m2 -455990.99 -452644.15 -585251.03 -438496.02 -292749.13 -324181.36 -469928.25 -847927.75 -719985.09 -713233.24 -841175.90 -726195.94 -602010.64 -582795.51 -706980.80 -581885.20 -456104.96 -476966.42 -602746.66 -461223.55 -332885.39 -343362.69 -471700.84 -839394.52 -714958.90 -669507.03 -793942.66 -695083.95 -594677.85 -588861.52 -689267.62 -590922.70 -488827.31 -490269.68 -592365.07 -469856.93 -345272.02 -384447.68 -509032.59 -800267.19 -662979.13 -589851.93 -727139.99 -660678.37 -617536.55 -548575.42 -591717.24 -561827.89 -520813.55 -563104.06 -604118.41 -511162.21 -382529.85 -443686.98 -572319.34 -658392.54
Page 28 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
Joint
91 91 91 92 92 92 92 93 93 93 93 94 94 94 94 95 95 95 95 96 96 96 96 97 97 97 97 98 98 98 98 99 99 99 99 100 100 100 100 101 101 101 101 102 102 102 102 103 103 103 103 104 104 104 104 105
91 91 91 92 92 92 92 93 93 93 93 94 94 94 94 95 95 95 95 96 96 96 96 97 97 97 97 98 98 98 98 99 99 99 99 100 100 100 100 101 101 101 101 102 102 102 102 103 103 103 103 104 104 104 104 105
115 120 121 115 117 122 120 117 118 123 122 118 119 124 123 123 124 125 126 122 123 126 127 120 122 127 128 121 120 128 129 126 125 130 131 127 126 131 132 128 127 132 133 129 128 133 134 131 130 135 136 132 131 136 137 133
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 2 of 4 OutputC SMinTop SAngleTop SVMTop S11Bot ase Kgf/m2 Degrees Kgf/m2 Kgf/m2 COMB3 5085.38 83.119 5537481.54 -84530.52 COMB3 286484.05 86.105 6466896.00 -315637.37 COMB3 281361.38 86.260 6725326.86 -309353.54 COMB3 191345.54 83.947 5459468.45 -250968.02 COMB3 192529.24 83.739 5427849.16 -255912.21 COMB3 457173.25 84.954 6398495.87 -504810.66 COMB3 442963.98 85.144 6445912.78 -487479.67 COMB3 196606.34 83.757 5431019.49 -259644.69 COMB3 169273.74 83.580 5410376.62 -235840.45 COMB3 430321.14 84.782 6357190.08 -481025.33 COMB3 442430.47 84.956 6397459.32 -490081.52 COMB3 36221.06 84.640 5434232.00 -83479.02 COMB3 29191.03 84.706 5594862.89 -76700.32 COMB3 238673.75 84.161 6563246.28 -305341.16 COMB3 233616.11 84.110 6418191.45 -299936.01 COMB3 89688.05 -6.253 6560685.87 -6527778.61 COMB3 91326.24 -5.144 6652025.99 -6644109.60 COMB3 118407.62 -5.302 7489773.22 -7484827.01 COMB3 103012.17 -6.265 7419206.98 -7382446.05 COMB3 302291.28 -4.049 6240698.81 -6356019.19 COMB3 284720.58 -6.041 6507784.10 -6575027.23 COMB3 724873.55 -7.072 7269526.73 -7500518.49 COMB3 743232.28 -5.267 7002708.27 -7289048.97 COMB3 352966.61 -3.624 6560331.02 -6704215.42 COMB3 262203.81 -6.198 6298002.54 -6353168.25 COMB3 820483.98 -3.269 6948060.53 -7300735.84 COMB3 872213.37 -0.935 7269536.02 -7664483.95 COMB3 130000.50 -4.043 6893452.52 -6923601.05 COMB3 151691.21 -3.304 6593995.49 -6646891.01 COMB3 228401.35 -1.095 7443302.66 -7552198.05 COMB3 208280.06 -1.842 7740359.37 -7834512.58 COMB3 97646.50 -4.264 7043900.65 -7053555.10 COMB3 103777.63 -7.183 7829218.29 -7759018.11 COMB3 661844.21 -10.805 8657522.32 -8677495.66 COMB3 687711.83 -8.443 7827504.78 -7987813.02 COMB3 776171.46 -4.595 7130776.75 -7444044.07 COMB3 649532.65 -7.938 7009408.74 -7184512.95 COMB3 1353707.34 -5.839 7584906.19 -8100050.96 COMB3 1428611.28 -2.590 7782747.94 -8383854.19 COMB3 858964.17 -0.289 7098525.11 -7488753.46 COMB3 820277.98 -3.846 7100466.72 -7445034.27 COMB3 1513097.15 -3.401 7786837.90 -8407983.33 COMB3 1545479.05 0.018 7796156.32 -8453147.31 COMB3 302275.58 0.115 8138949.31 -8285843.75 COMB3 170699.52 -3.201 7280380.70 -7341806.18 COMB3 876597.11 2.838 7953139.86 -8336783.94 COMB3 925780.84 5.378 8933155.13 -9285914.99 COMB3 730342.28 -7.525 8025062.40 -8234330.12 COMB3 173942.92 -14.130 6970766.75 -6645969.68 COMB3 1549295.19 -3.082 6942391.84 -7568698.78 COMB3 1776343.46 2.417 8478797.28 -9212995.62 COMB3 1535254.81 -3.195 8287704.10 -8924959.18 COMB3 1410317.28 -4.896 7762089.22 -8319860.52 COMB3 1877749.97 -0.712 8484830.00 -9265270.83 COMB3 1952116.23 0.631 9078292.74 -9894586.20 COMB3 1689307.81 -1.107 8461111.24 -9175531.07
SAP2000 v12.0.0
S22Bot
S12Bot
Kgf/m2 -5460577.34 -6576223.72 -6833599.79 -5493003.28 -5458169.29 -6567183.94 -6611453.74 -5463614.67 -5426460.40 -6510713.82 -6559539.23 -5404994.04 -5561891.99 -6612660.15 -6465490.03 -166979.53 -144435.55 -181855.62 -190742.80 -332623.14 -355164.77 -829162.84 -798863.88 -378440.13 -334045.07 -841621.61 -874021.91 -163932.81 -173332.56 -231077.95 -216164.93 -136307.68 -225350.76 -953798.57 -848568.65 -819237.38 -776587.25 -1424268.06 -1442842.26 -859132.87 -850224.23 -1537452.08 -1545479.74 -302307.96 -193122.77 -894936.64 -999860.18 -861281.84 -584083.60 -1566746.61 -1789592.27 -1558282.67 -1461010.56 -1878891.65 -1953079.76 -1692102.28
Kgf/m2 -658340.59 -428213.52 -428265.47 -562225.92 -577712.63 -539504.48 -524017.77 -576214.84 -591568.77 -555248.95 -539895.02 -503703.52 -512693.59 -651872.08 -642882.01 705414.48 589926.92 683655.32 799142.87 428510.03 665669.29 840611.19 603451.94 402229.57 661500.22 370104.25 110833.59 480127.62 374919.89 140010.12 245217.85 518578.46 964713.21 1529772.64 1083637.89 535871.30 911207.61 689947.01 314610.70 33443.03 445406.08 409785.90 -2177.15 -16079.54 400998.16 -369886.86 -786964.56 991246.12 1629245.67 324109.75 -313889.80 412515.57 591833.92 91837.89 -87480.46 144637.33
Page 29 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
Joint
105 105 105 106 106 106 106 107 107 107 107 109 109 109 109 110 110 110 110 111 111 111 111 112 112 112 112 113 113 113 113 114 114 114 114 115 115 115 115 116 116 116 116 117 117 117 117 118 118 118 118 119 119 119 119
105 105 105 106 106 106 106 107 107 107 107 108 108 108 108 109 109 109 109 110 110 110 110 111 111 111 111 112 112 112 112 113 113 113 113 114 114 114 114 115 115 115 115 116 116 116 116 117 117 117 117 118 118 118 118
132 137 138 134 133 138 139 155 1 2 156 156 2 5 157 157 5 7 158 158 7 9 159 160 155 156 161 161 156 157 162 162 157 158 163 163 158 159 164 168 163 164 169 167 162 163 168 166 161 162 167 165 160 161 166
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 2 of 4 OutputC SMinTop SAngleTop SVMTop S11Bot ase Kgf/m2 Degrees Kgf/m2 Kgf/m2 COMB3 1629958.35 -2.083 8245919.39 -8929522.62 COMB3 1989503.83 -0.447 9084288.39 -9913670.26 COMB3 2027239.01 0.415 9328106.10 -10174593.7 COMB3 742650.34 6.909 8112049.32 -8346182.71 COMB3 987956.31 1.720 8606118.37 -9050191.11 COMB3 1998906.71 -2.364 9333964.33 -10157586.1 COMB3 1887563.79 2.603 8649797.63 -9422135.92 COMB3 -4790515.73 86.916 4992115.54 4775544.60 COMB3 -1036569.43 88.019 1107878.70 1035174.93 COMB3 -1683482.43 -65.762 1918974.70 1331343.91 COMB3 -5133148.52 -84.272 5317629.50 5078520.64 COMB3 -5388794.31 -79.552 5177435.29 5226450.01 COMB3 -1415113.26 -75.865 1712082.40 1301619.65 COMB3 -830599.74 -77.800 1178442.15 770364.98 COMB3 -4810442.72 -80.599 4616926.33 4693181.75 COMB3 -4715264.10 -86.918 4456027.65 4703290.14 COMB3 -1141429.82 -64.286 1698001.67 774084.16 COMB3 -1591103.72 -73.764 1912500.51 1425231.27 COMB3 -5376517.60 -89.647 5085579.66 5376338.10 COMB3 -5251059.55 -86.330 5395108.57 5228411.72 COMB3 -1499291.80 -80.771 1540788.24 1458676.01 COMB3 -1878848.52 -61.943 2296540.12 1312496.15 COMB3 -5333756.86 -78.395 5647389.81 5094350.62 COMB3 -17003307.0 -84.616 16123272.65 16870658.48 COMB3 -5794191.49 -88.500 5900033.62 5790081.96 COMB3 -4249944.47 -88.692 4478633.06 4247507.27 COMB3 -15458811.0 -84.305 14677127.87 15323441.73 COMB3 -15574801.0 -87.688 14277756.96 15554500.40 COMB3 -4676485.35 -77.053 4545955.31 4455456.50 COMB3 -5086452.17 -82.044 4868069.68 4998037.20 COMB3 -16134273.2 -89.232 14811654.51 16131941.90 COMB3 -16167095.5 -87.704 14816422.56 16146335.59 COMB3 -5033820.19 -86.070 4769101.13 5012915.94 COMB3 -4754944.06 89.184 4500342.48 4754094.58 COMB3 -15880396.7 -89.304 14538949.33 15878529.50 COMB3 -15664470.5 87.190 14822018.64 15631303.33 COMB3 -4668667.69 -81.283 4924741.94 4550459.61 COMB3 -6403598.06 -83.461 6513795.53 6317771.17 COMB3 -17455447.4 87.398 16518928.82 17423724.07 COMB3 -35217522. -88.900 32288235.74 35207125.93 COMB3 -16721849.2 89.427 15797654.05 16720380.19 COMB3 -15999807.9 84.976 15202437.56 15890487.92 COMB3 -34330061. 88.841 31461689.56 34318826.59 COMB3 -34825156. 89.975 31914658.50 34825150.84 COMB3 -16548935.0 -88.589 15160400.87 16540916.27 COMB3 -16956946.5 -88.509 15529447.47 16947784.52 COMB3 -35261560. -89.971 32320885.09 35261552.39 COMB3 -34401371. -89.971 31520574.07 34401363.93 COMB3 -16130002.6 -88.447 14789225.81 16120510.48 COMB3 -16533149.9 -88.618 15172435.25 16525416.19 COMB3 -34816176. 89.968 31918382.85 34816167.77 COMB3 -32598541. -88.823 29863191.54 32587564.29 COMB3 -14505582.7 -81.553 13899179.84 14220708.34 COMB3 -15948988.7 -86.489 15105723.31 15896147.02 COMB3 -34355634. 88.913 31509618.88 34345724.21
SAP2000 v12.0.0
S22Bot
S12Bot
Kgf/m2 -1639614.15 -1989985.78 -2027667.01 -854306.08 -995225.72 -2012805.85 -1903138.55 -366358.28 -129580.41 -53869.88 -296891.98 614753.92 -374490.22 -457902.02 532321.70 586099.43 -442541.89 -364829.78 643220.86 -254747.93 -39269.20 -114884.55 -342759.80 2067294.61 -202164.74 -424380.72 1849215.46 3125444.93 494429.33 559418.68 3155301.58 3257128.51 603953.90 562842.85 3226050.41 1893760.39 -359172.80 -129241.24 2099452.59 7020820.17 2049653.00 1854728.12 6884370.33 6974584.99 3339074.58 3436871.48 7042755.66 6907207.76 3217698.09 3254945.29 6936298.58 6573125.17 1589703.67 1911357.44 6813532.53
Kgf/m2 265486.61 61798.04 -59051.24 -921400.04 -242090.25 336747.16 -342562.63 -277856.47 -40326.20 782169.21 544638.94 880362.56 450675.67 278590.37 708277.25 222356.66 762800.85 569592.39 29148.20 353121.24 249979.73 1062617.27 1165758.78 1407565.01 156978.31 106734.65 1357321.35 502722.42 961433.84 632659.11 173947.69 517696.28 304307.49 -59674.89 153713.91 -675822.30 770928.90 748794.53 -697956.67 541428.78 -146810.28 -1243519.20 -555280.14 -12040.61 325462.56 351951.88 14448.72 14121.09 350093.62 320451.75 -15520.77 534486.39 1918176.99 861262.25 -522428.36
Page 30 of 53
Perencanaan Struktur Tangga – Graha ISTN
SAP2000 v12.0.0
Table: Element Stresses - Area Shells, Part 3 of 4 Area
AreaEle m
Joint
1 1 1 1 2 2 2 2 3 3 3 3 4 4 4 4 5 5 5 5 6 6 6 6 7 7 7 7 8 8 8 8 9 9 9 9 10 10 10 10 11 11 11 11 12 12 12 12 13 13 13 13 14 14
1 1 1 1 2 2 2 2 3 3 3 3 4 4 4 4 5 5 5 5 6 6 6 6 7 7 7 7 8 8 8 8 9 9 9 9 10 10 10 10 11 11 11 11 12 12 12 12 13 13 13 13 14 14
1 2 3 4 2 5 6 3 5 7 8 6 7 9 10 8 4 3 11 12 3 6 13 11 6 8 14 13 8 10 15 14 12 11 16 17 11 13 18 16 13 14 19 18 14 15 20 19 17 16 21 22 16 18
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 3 of 4 OutputC SMaxBot SMinBot SAngleBot SVMBot ase Kgf/m2 Kgf/m2 Degrees Kgf/m2 COMB3 184062.30 -1180869.82 -16.829 1282842.96 COMB3 169920.58 -1204165.30 -16.004 1297497.41 COMB3 260293.72 -1007039.82 -19.028 1159313.65 COMB3 281742.60 -990119.96 -19.762 1157011.41 COMB3 379101.35 -1124450.29 -11.261 1354395.41 COMB3 406254.35 -1393102.88 -14.809 1634543.46 COMB3 390685.04 -1311625.75 -23.487 1544483.56 COMB3 349862.80 -1026493.19 -21.287 1239041.58 COMB3 465936.32 -1479355.40 -18.572 1759225.53 COMB3 631298.66 -1468549.28 -22.552 1866083.65 COMB3 456956.27 -1206081.08 -25.001 1488142.10 COMB3 290928.61 -1212961.64 -19.861 1381593.51 COMB3 332823.96 -1484478.98 -23.280 1675863.90 COMB3 336076.19 -1537638.49 -22.150 1730330.32 COMB3 472306.38 -1336682.92 -26.086 1625151.81 COMB3 486759.81 -1296168.80 -26.926 1596217.89 COMB3 238994.32 -938429.46 -17.944 1077983.04 COMB3 287260.50 -1114013.23 -20.032 1282012.51 COMB3 292802.62 -1081945.23 -27.104 1254246.89 COMB3 243443.88 -902779.63 -26.007 1045969.48 COMB3 345699.61 -1155246.54 -21.774 1361422.44 COMB3 398222.38 -1169028.36 -23.328 1410936.43 COMB3 378749.11 -1005714.22 -25.948 1239284.20 COMB3 329413.36 -992968.05 -24.032 1192306.87 COMB3 358118.03 -1149023.54 -22.435 1363814.39 COMB3 392839.65 -1239605.29 -22.970 1475774.50 COMB3 435793.06 -1118960.69 -27.519 1389109.03 COMB3 409078.51 -1032933.43 -26.925 1287185.91 COMB3 417942.97 -1308413.46 -24.918 1559956.51 COMB3 548693.56 -1313064.66 -28.112 1657007.40 COMB3 430464.69 -1100091.29 -31.225 1367132.46 COMB3 298548.85 -1091116.87 -27.157 1267051.35 COMB3 275713.92 -969251.58 -27.316 1132564.77 COMB3 272566.36 -987310.51 -26.391 1148121.12 COMB3 331683.92 -924891.66 -28.525 1127923.09 COMB3 342633.94 -912244.25 -29.093 1123456.02 COMB3 338918.30 -955459.10 -24.813 1162579.15 COMB3 371375.30 -1036720.07 -25.297 1264009.63 COMB3 387657.26 -994423.60 -29.042 1234767.98 COMB3 361611.51 -916848.44 -28.460 1141453.85 COMB3 391065.87 -1076513.49 -26.412 1316359.19 COMB3 450593.45 -1082523.19 -27.901 1364796.24 COMB3 413829.45 -960255.38 -30.046 1220953.39 COMB3 358469.09 -955740.57 -28.111 1176666.29 COMB3 355020.50 -1116292.49 -29.044 1329832.77 COMB3 357496.53 -1097903.96 -29.096 1313656.63 COMB3 405617.64 -950626.24 -31.001 1205739.07 COMB3 410494.09 -973229.56 -30.474 1230928.99 COMB3 333681.41 -874144.32 -29.262 1080350.53 COMB3 356722.10 -929738.07 -29.006 1150357.18 COMB3 363063.47 -947387.97 -31.125 1171887.81 COMB3 346955.43 -896003.13 -31.061 1110888.31 COMB3 375953.70 -940097.80 -29.112 1174120.23 COMB3 383543.68 -948917.54 -28.804 1188066.32
S13Avg
S23Avg
Kgf/m2 4222.19 4222.19 -3475.79 -3475.79 7027.36 7027.36 -2970.34 -2970.34 -5340.75 -5340.75 526.08 526.08 -2486.09 -2486.09 1380.61 1380.61 1926.05 1926.05 -925.97 -925.97 777.62 777.62 -1621.54 -1621.54 1472.89 1472.89 -1278.92 -1278.92 210.50 210.50 -1905.69 -1905.69 1330.28 1330.28 -1792.93 -1792.93 2161.09 2161.09 -1859.30 -1859.30 375.79 375.79 -1217.78 -1217.78 1488.77 1488.77 -1305.76 -1305.76 1410.29 1410.29 -1709.10 -1709.10 1129.96 1129.96
Kgf/m2 -6715.67 -13728.33 -13728.33 -6715.67 -5831.62 -14939.26 -14939.26 -5831.62 -13899.19 -8554.65 -8554.65 -13899.19 -14379.69 -10857.22 -10857.22 -14379.69 -5466.89 -8065.01 -8065.01 -5466.89 -7047.59 -9233.17 -9233.17 -7047.59 -7763.55 -10270.39 -10270.39 -7763.55 -8396.48 -10324.28 -10324.28 -8396.48 -2936.85 -5782.01 -5782.01 -2936.85 -2990.54 -6653.02 -6653.02 -2990.54 -5036.51 -6488.22 -6488.22 -5036.51 -5898.11 -8443.85 -8443.85 -5898.11 272.91 -2568.78 -2568.78 272.91 -1136.88 -3573.77
Page 31 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
Joint
14 14 15 15 15 15 16 16 16 16 17 17 17 17 18 18 18 18 19 19 19 19 20 20 20 20 21 21 21 21 22 22 22 22 23 23 23 23 24 24 24 24 25 25 25 25 26 26 26 26 27 27 27 27 28 28
14 14 15 15 15 15 16 16 16 16 17 17 17 17 18 18 18 18 19 19 19 19 20 20 20 20 21 21 21 21 22 22 22 22 23 23 23 23 24 24 24 24 25 25 25 25 26 26 26 26 27 27 27 27 28 28
23 21 18 19 24 23 19 20 25 24 22 21 26 27 21 23 28 26 23 24 29 28 24 25 30 29 27 26 31 32 26 28 33 31 28 29 34 33 29 30 35 34 32 31 36 37 31 33 38 36 33 34 39 38 34 35
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 3 of 4 OutputC SMaxBot SMinBot SAngleBot SVMBot ase Kgf/m2 Kgf/m2 Degrees Kgf/m2 COMB3 403307.03 -912032.87 -29.986 1167171.70 COMB3 402237.69 -907223.56 -29.932 1161795.70 COMB3 380666.02 -962646.33 -29.046 1199183.60 COMB3 387997.72 -959074.86 -29.046 1201035.25 COMB3 404477.51 -890895.34 -30.201 1147886.62 COMB3 404211.59 -898740.65 -29.772 1155163.69 COMB3 375759.29 -987436.37 -29.693 1219534.35 COMB3 415641.27 -984774.75 -30.868 1245733.52 COMB3 387435.64 -889637.98 -32.484 1134125.02 COMB3 352573.00 -894574.23 -30.791 1113540.97 COMB3 383914.50 -899968.01 -32.428 1141421.72 COMB3 347842.35 -904458.68 -30.546 1119664.62 COMB3 399576.84 -955711.79 -30.292 1206203.54 COMB3 441354.44 -954313.72 -31.635 1235596.62 COMB3 402833.56 -912876.08 -30.233 1167627.82 COMB3 406855.55 -898890.31 -29.836 1157261.31 COMB3 401225.36 -898891.32 -29.486 1153102.51 COMB3 404325.74 -917258.42 -29.458 1172908.14 COMB3 401005.88 -908478.60 -29.922 1162086.20 COMB3 400828.44 -894207.07 -29.792 1148343.74 COMB3 399364.96 -872115.83 -29.681 1126219.73 COMB3 405928.10 -890250.11 -29.431 1148346.82 COMB3 363938.00 -939501.57 -31.151 1164918.19 COMB3 357173.08 -878440.68 -31.445 1101356.44 COMB3 350823.94 -797778.95 -30.377 1019513.93 COMB3 364698.72 -863160.61 -29.678 1092174.42 COMB3 408272.80 -940447.41 -31.210 1197951.21 COMB3 445563.73 -944754.86 -31.208 1229649.25 COMB3 371309.41 -1030397.24 -30.106 1257849.49 COMB3 341911.05 -1031046.07 -29.614 1237935.86 COMB3 430052.53 -924687.80 -30.549 1199023.37 COMB3 370895.74 -904032.83 -28.102 1135843.71 COMB3 440129.56 -970742.58 -26.849 1250323.03 COMB3 503370.10 -992926.20 -28.806 1318746.85 COMB3 410119.52 -962608.65 -29.542 1220490.90 COMB3 381605.95 -828546.17 -29.003 1071582.94 COMB3 378796.24 -774159.96 -24.373 1017869.89 COMB3 413453.07 -911560.13 -25.105 1174211.50 COMB3 343708.16 -846234.57 -29.351 1060710.13 COMB3 379344.82 -800222.06 -30.989 1042985.11 COMB3 290348.93 -768342.04 -29.193 947491.05 COMB3 263692.35 -821023.10 -26.979 979852.08 COMB3 482802.07 -1087324.67 -33.524 1392959.22 COMB3 214848.00 -1064803.94 -23.967 1186902.73 COMB3 588691.25 -1318465.87 -23.322 1691472.43 COMB3 846051.03 -1327995.58 -29.993 1898137.68 COMB3 462771.65 -1213273.32 -27.603 1499219.21 COMB3 427969.19 -870631.10 -26.105 1146193.46 COMB3 448964.22 -823265.40 -14.276 1117564.99 COMB3 472187.34 -1151212.12 -18.088 1446318.79 COMB3 382121.98 -861645.51 -24.650 1103496.21 COMB3 444759.15 -738463.40 -26.351 1035170.15 COMB3 312698.49 -746117.75 -20.397 942221.81 COMB3 265476.13 -882989.85 -18.572 1041422.77 COMB3 296225.83 -802814.22 -28.685 984923.71 COMB3 308280.42 -677390.43 -29.956 873338.89
SAP2000 v12.0.0
S13Avg
S23Avg
Kgf/m2 -1545.07 -1545.07 1770.49 1770.49 -1780.53 -1780.53 1652.25 1652.25 -1606.09 -1606.09 2011.13 2011.13 -2361.94 -2361.94 1870.87 1870.87 -2666.79 -2666.79 1320.65 1320.65 -1350.50 -1350.50 1261.29 1261.29 -1220.19 -1220.19 2012.08 2012.08 -3918.15 -3918.15 1413.05 1413.05 -1630.33 -1630.33 1657.42 1657.42 -3067.22 -3067.22 1669.63 1669.63 -2012.79 -2012.79 4459.40 4459.40 -3801.82 -3801.82 3620.76 3620.76 -10089.21 -10089.21 3118.70 3118.70 -7163.72 -7163.72 1178.99 1178.99
Kgf/m2 -3573.77 -1136.88 -1727.08 -4961.97 -4961.97 -1727.08 -2613.51 -5581.77 -5581.77 -2613.51 3573.06 -410.69 -410.69 3573.06 2671.24 -1462.47 -1462.47 2671.24 772.35 -1661.01 -1661.01 772.35 -387.26 -2647.82 -2647.82 -387.26 7792.02 2389.74 2389.74 7792.02 4404.44 1632.00 1632.00 4404.44 3924.75 -379.28 -379.28 3924.75 3188.31 -166.29 -166.29 3188.31 11550.92 4025.16 4025.16 11550.92 12344.02 -145.42 -145.42 12344.02 9994.46 627.44 627.44 9994.46 5092.75 1634.61
Page 32 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
Joint
28 28 29 29 29 29 30 30 30 30 31 31 31 31 32 32 32 32 33 33 33 33 34 34 34 34 35 35 35 35 36 36 36 36 37 37 37 37 38 38 38 38 39 39 39 39 40 40 40 40 41 41 41 41 42 42
28 28 29 29 29 29 30 30 30 30 31 31 31 31 32 32 32 32 33 33 33 33 34 34 34 34 35 35 35 35 36 36 36 36 37 37 37 37 38 38 38 38 39 39 39 39 40 40 40 40 41 41 41 41 42 42
40 39 37 36 41 42 36 38 43 41 38 39 44 43 39 40 45 44 42 41 46 47 41 43 48 46 43 44 49 48 44 45 50 49 47 46 51 52 46 48 53 51 48 49 54 53 49 50 55 54 52 51 56 57 51 53
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 3 of 4 OutputC SMaxBot SMinBot SAngleBot SVMBot ase Kgf/m2 Kgf/m2 Degrees Kgf/m2 COMB3 228607.65 -639544.82 -23.501 779412.51 COMB3 227664.83 -773922.95 -22.477 909386.08 COMB3 452876.15 -2292050.50 -22.419 2548844.31 COMB3 657710.96 -1129468.90 -24.272 1565614.19 COMB3 712523.07 -1150240.50 8.238 1627978.88 COMB3 401985.80 -2203934.01 -0.745 2429993.39 COMB3 391002.46 -1009256.00 -15.387 1251440.04 COMB3 606662.11 -704964.60 -20.150 1136964.96 COMB3 324944.52 -781997.63 -6.050 985502.45 COMB3 168576.53 -1144896.02 -2.186 1237823.71 COMB3 291559.55 -780079.72 -21.151 959672.35 COMB3 379721.62 -567347.67 -22.288 825533.80 COMB3 277993.77 -573883.45 -10.405 752435.24 COMB3 204935.02 -799649.16 -10.475 919409.19 COMB3 235814.98 -609969.80 -23.426 755984.04 COMB3 332881.65 -527240.55 -28.703 751200.03 COMB3 135224.18 -517104.00 -22.400 596328.01 COMB3 64176.23 -624479.59 -15.373 658915.85 COMB3 774383.47 -1027768.36 -78.541 1565843.03 COMB3 1010070.32 -576284.87 85.724 1390839.52 COMB3 423624.06 -745391.45 -81.906 1025100.73 COMB3 379833.16 -1389327.90 -67.210 1613139.19 COMB3 284256.01 -706617.35 86.688 883724.95 COMB3 490453.75 -492812.04 83.578 851533.97 COMB3 400051.51 -534590.78 -86.921 812214.48 COMB3 223999.72 -778381.21 -84.113 911268.54 COMB3 267593.07 -539505.62 82.343 712067.64 COMB3 433967.24 -388363.45 73.557 712524.21 COMB3 220966.83 -390901.43 83.325 536662.39 COMB3 106486.64 -594024.31 -86.224 653804.21 COMB3 145326.81 -458898.95 68.895 546258.58 COMB3 197674.33 -334839.28 65.255 466242.01 COMB3 117552.32 -292176.69 76.882 365420.05 COMB3 80294.99 -431386.21 79.569 476633.51 COMB3 602778.06 -475107.60 -57.101 935656.48 COMB3 600095.15 -429189.79 -71.990 895473.49 COMB3 275519.79 -432063.91 -79.301 617764.14 COMB3 250774.80 -451094.83 -57.508 616033.89 COMB3 327273.96 -417408.19 -76.891 646486.41 COMB3 460703.42 -227340.86 89.095 607180.55 COMB3 251209.27 -295120.90 -80.342 473644.96 COMB3 183975.48 -551569.26 -66.868 662986.32 COMB3 161316.59 -285731.72 -88.154 392121.06 COMB3 254247.80 -213291.50 85.193 405418.43 COMB3 180013.43 -229056.10 -88.384 355112.24 COMB3 105429.80 -319858.41 -81.106 383598.04 COMB3 104132.88 -252352.93 80.645 317496.29 COMB3 176436.57 -183885.42 68.243 312070.22 COMB3 49552.49 -157006.60 79.243 186779.52 COMB3 15218.57 -263608.61 -83.998 271537.93 COMB3 265523.67 -278496.57 -54.228 471179.99 COMB3 410146.03 -109287.12 -66.447 474328.07 COMB3 348175.12 -153995.04 -62.116 445598.06 COMB3 221458.21 -340980.85 -50.869 490738.92 COMB3 279310.10 -206152.01 -57.301 422010.81 COMB3 325060.33 -135670.81 -71.987 410087.78
SAP2000 v12.0.0
S13Avg
S23Avg
Kgf/m2 -2617.09 -2617.09 8341.79 8341.79 -37054.82 -37054.82 6053.95 6053.95 -21267.90 -21267.90 2010.72 2010.72 -10498.70 -10498.70 1365.77 1365.77 -4216.44 -4216.44 -10835.68 -5250.69 -5250.69 -10835.68 -2088.85 -3701.59 -3701.59 -2088.85 -3581.29 -2711.69 -2711.69 -3581.29 -1887.57 -1289.31 -1289.31 -1887.57 -6916.95 -1492.43 -1492.43 -6916.95 -3715.05 -1856.63 -1856.63 -3715.05 -1150.56 -1005.01 -1005.01 -1150.56 -1651.60 4.347E-02 4.347E-02 -1651.60 -406.55 -1700.97 -1700.97 -406.55 -1782.63 26.35
Kgf/m2 1634.61 5092.75 34224.19 -7130.99 -7130.99 34224.19 22747.42 -2142.10 -2142.10 22747.42 11179.74 -216.02 -216.02 11179.74 6942.61 1857.35 1857.35 6942.61 -11796.85 -11796.85 -17381.84 -17381.84 -10326.08 -10326.08 -8713.34 -8713.34 -5162.27 -5162.27 -6031.87 -6031.87 -1457.26 -1457.26 -2055.52 -2055.52 -7774.59 -7774.59 -13199.12 -13199.12 -7487.17 -7487.17 -9345.60 -9345.60 -4286.99 -4286.99 -4432.54 -4432.54 -732.97 -732.97 -2384.61 -2384.61 -12848.71 -12848.71 -11554.29 -11554.29 -6129.25 -6129.25
Page 33 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
Joint
42 42 43 43 43 43 44 44 44 44 45 45 45 45 46 46 46 46 47 47 47 47 48 48 48 48 49 49 49 49 50 50 50 50 51 51 51 51 52 52 52 52 53 53 53 53 54 54 54 54 55 55 55 55 56 56
42 42 43 43 43 43 44 44 44 44 45 45 45 45 46 46 46 46 47 47 47 47 48 48 48 48 49 49 49 49 50 50 50 50 51 51 51 51 52 52 52 52 53 53 53 53 54 54 54 54 55 55 55 55 56 56
58 56 53 54 59 58 54 55 60 59 61 62 63 64 62 42 47 63 64 63 65 66 63 47 52 65 66 65 67 68 65 52 57 67 69 70 71 72 70 73 74 71 73 75 76 74 75 61 64 76 72 71 77 78 71 74
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 3 of 4 OutputC SMaxBot SMinBot SAngleBot SVMBot ase Kgf/m2 Kgf/m2 Degrees Kgf/m2 COMB3 200060.67 -133936.62 -73.350 291133.54 COMB3 161514.17 -211801.97 -54.307 324277.54 COMB3 159503.22 -148405.52 -73.007 266714.52 COMB3 217039.66 -41751.47 88.007 240647.30 COMB3 111332.89 -66164.18 -74.587 155367.19 COMB3 100824.40 -219779.53 -59.377 283950.25 COMB3 46630.58 -73701.63 -85.908 105086.12 COMB3 69201.81 -49171.50 81.545 103002.35 COMB3 35476.34 -45448.79 -88.694 70260.37 COMB3 23577.28 -80666.87 -73.998 94683.35 COMB3 881931.42 -1702476.71 -19.391 2275455.49 COMB3 1242480.41 -2346722.12 -40.472 3156995.18 COMB3 1212910.81 -743048.59 -49.082 1710124.41 COMB3 933897.06 -174590.13 -0.270 1032324.87 COMB3 2380899.28 -1340875.31 -50.966 3264830.32 COMB3 1738202.03 -1208681.85 -70.087 2565773.05 COMB3 289779.96 -1041634.94 -88.154 1212773.97 COMB3 802551.59 -1039867.93 -43.466 1599988.14 COMB3 404547.25 -608345.53 -36.858 883089.62 COMB3 594249.78 -429649.89 -53.486 890534.22 COMB3 495449.85 -190074.75 -53.255 613002.02 COMB3 340864.12 -400430.64 -30.650 642670.58 COMB3 416345.47 -553506.02 -44.544 842711.21 COMB3 656506.84 -444049.10 -59.568 959011.00 COMB3 517478.27 -323007.05 -64.222 734347.63 COMB3 257291.09 -409424.28 -45.127 582381.46 COMB3 228103.09 -402592.09 -35.681 553121.96 COMB3 465065.02 -272481.01 -52.552 645951.05 COMB3 462460.02 -149277.86 -55.386 552438.40 COMB3 215680.02 -268645.33 -35.425 420273.26 COMB3 333175.63 -384484.81 -45.126 622041.43 COMB3 507285.56 -216919.99 -61.349 643764.94 COMB3 388821.39 -171363.52 -62.561 497169.32 COMB3 222494.47 -345917.77 -42.594 496112.56 COMB3 -12852.45 -275572.01 62.839 269375.84 COMB3 98203.74 -234803.09 52.872 296369.71 COMB3 196878.20 -58088.42 18.452 231455.47 COMB3 64489.83 -77517.40 9.449 123154.26 COMB3 -27619.64 -438106.66 35.332 424970.52 COMB3 100834.87 -221343.32 25.569 285446.43 COMB3 355047.66 -21653.33 -3.842 366354.58 COMB3 148920.29 -160704.50 8.072 268207.66 COMB3 44623.68 -450758.47 17.888 474646.16 COMB3 313170.35 -203889.04 17.182 451107.99 COMB3 569358.21 -111346.94 -3.776 632426.45 COMB3 286999.56 -343832.28 -4.179 547054.93 COMB3 183732.76 -1033401.14 12.189 1136461.74 COMB3 713602.75 -624154.69 -8.928 1159394.87 COMB3 1334292.37 -256340.35 -24.806 1479215.83 COMB3 517741.07 -378271.25 -9.745 779096.60 COMB3 -9283.60 -154299.23 37.712 149873.23 COMB3 30442.57 -70251.40 17.589 89446.31 COMB3 194150.06 13197.86 -11.670 187899.08 COMB3 100806.73 -17327.69 2.585 110494.31 COMB3 -642.86 -187119.30 6.602 186798.70 COMB3 75911.02 -74668.77 -1.266 130407.41
SAP2000 v12.0.0
S13Avg
S23Avg
Kgf/m2 26.35 -1782.63 -332.21 -1000.36 -1000.36 -332.21 -40.35 117.79 117.79 -40.35 46366.45 -11269.77 -11269.77 46366.45 10784.58 -29671.40 -29671.40 10784.58 23087.44 -11570.21 -11570.21 23087.44 14633.69 -15585.38 -15585.38 14633.69 6821.52 -2458.65 -2458.65 6821.52 3663.15 -4293.65 -4293.65 3663.15 14184.58 14106.78 14106.78 14184.58 15690.60 15296.41 15296.41 15690.60 17459.06 11722.70 11722.70 17459.06 21552.54 15193.38 15193.38 21552.54 7757.77 8708.98 8708.98 7757.77 8849.76 7534.56
Kgf/m2 -7938.24 -7938.24 -4447.72 -4447.72 -3779.57 -3779.57 -930.19 -930.19 -1088.33 -1088.33 -57078.12 -57078.12 558.09 558.09 -43908.44 -43908.44 -3452.46 -3452.46 -40647.46 -40647.46 -5989.80 -5989.80 -37179.90 -37179.90 -6960.83 -6960.83 -23409.10 -23409.10 -14128.93 -14128.93 -21971.09 -21971.09 -14014.29 -14014.29 -2177.63 -2177.63 -2099.83 -2099.83 -7044.65 -7044.65 -6650.46 -6650.46 -14791.69 -14791.69 -9055.33 -9055.33 -22249.90 -22249.90 -15890.74 -15890.74 -1439.59 -1439.59 -2390.81 -2390.81 -6024.85 -6024.85
Page 34 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
Joint
56 56 57 57 57 57 58 58 58 58 59 59 59 59 60 60 60 60 61 61 61 61 62 62 62 62 63 63 63 63 64 64 64 64 65 65 65 65 66 66 66 66 67 67 67 67 68 68 68 68 69 69 69 69 70 70
56 56 57 57 57 57 58 58 58 58 59 59 59 59 60 60 60 60 61 61 61 61 62 62 62 62 63 63 63 63 64 64 64 64 65 65 65 65 66 66 66 66 67 67 67 67 68 68 68 68 69 69 69 69 70 70
79 77 74 76 80 79 76 64 66 80 78 77 81 82 77 79 83 81 79 80 84 83 80 66 68 84 61 75 85 86 75 73 87 85 73 70 88 87 70 69 89 88 86 85 90 91 85 87 92 90 87 88 93 92 88 89
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 3 of 4 OutputC SMaxBot SMinBot SAngleBot SVMBot ase Kgf/m2 Kgf/m2 Degrees Kgf/m2 COMB3 253006.52 -25566.53 -11.265 266710.41 COMB3 161253.25 -122686.51 -5.841 246653.99 COMB3 22892.51 -391854.46 5.128 403787.71 COMB3 251912.93 -221736.95 -16.470 410470.22 COMB3 544947.28 -85269.82 -27.689 592204.39 COMB3 232151.88 -171523.50 -13.816 350904.98 COMB3 272512.20 -532724.12 -21.242 709388.26 COMB3 418083.57 -567109.60 -39.230 856449.87 COMB3 513715.85 -155235.61 -39.496 606423.17 COMB3 398504.93 -151371.70 -12.663 491977.58 COMB3 3799.87 -40755.44 -11.064 42782.13 COMB3 26252.49 -24764.42 -30.331 44188.21 COMB3 73825.89 1624.36 -24.519 73027.26 COMB3 52399.68 -15374.63 -11.661 61544.54 COMB3 -11088.76 -151099.03 0.712 145871.10 COMB3 114277.90 -94582.41 -26.948 181146.21 COMB3 239613.69 -44343.67 -37.862 264587.29 COMB3 72810.00 -59295.64 -25.602 114606.22 COMB3 106268.73 -247320.70 -24.586 314234.03 COMB3 219539.60 -220832.16 -42.214 381373.68 COMB3 262710.44 -85525.32 -45.330 314324.27 COMB3 143062.38 -105751.48 -22.751 216285.18 COMB3 106189.57 -316428.68 -32.059 380794.91 COMB3 320090.31 -194142.46 -46.096 449769.08 COMB3 411754.24 -130384.91 -47.280 490130.92 COMB3 189161.44 -243747.38 -34.999 375902.16 COMB3 1755602.03 -372304.83 -84.195 1968341.56 COMB3 644605.25 -698483.85 82.887 1163461.20 COMB3 513581.24 -1045974.41 -48.311 1376597.61 COMB3 1692542.49 -785556.15 -55.693 2193487.11 COMB3 682805.04 -113066.43 -79.068 745794.25 COMB3 301144.43 -300459.42 -75.893 521004.32 COMB3 38600.11 -877826.50 -44.041 897749.15 COMB3 335165.38 -605151.08 -49.665 825451.00 COMB3 354473.18 -206943.41 -65.462 491764.89 COMB3 79627.57 -249448.63 -69.477 297368.72 COMB3 -35058.19 -699735.53 -29.341 682881.71 COMB3 199489.37 -615266.32 -36.121 735586.67 COMB3 181991.44 -112969.88 -50.567 257764.68 COMB3 81076.59 -166232.48 -41.131 218367.15 COMB3 -24200.65 -700765.06 -20.946 688983.58 COMB3 41112.69 -611095.46 -24.762 632654.48 COMB3 921708.79 -1339997.01 -46.300 1969828.95 COMB3 698859.76 -922100.00 -50.395 1408222.98 COMB3 347478.50 -1082261.60 -29.062 1291547.18 COMB3 598190.42 -1525293.98 -31.182 1896515.16 COMB3 493536.42 -721121.22 -51.243 1058061.25 COMB3 52078.89 -611652.66 -48.195 639285.05 COMB3 141140.14 -1240464.60 -26.115 1316720.29 COMB3 497890.34 -1262141.72 -33.431 1571402.14 COMB3 232339.67 -545012.84 -39.939 691121.42 COMB3 63688.50 -557438.01 -34.235 591857.88 COMB3 -5426.04 -1218835.60 -20.652 1216131.66 COMB3 127244.02 -1169020.38 -24.842 1237558.30 COMB3 131192.73 -543107.68 -31.689 619216.65 COMB3 -4200.70 -524294.74 -20.836 522207.06
SAP2000 v12.0.0
S13Avg
S23Avg
Kgf/m2 7534.56 8849.76 10052.08 9161.14 9161.14 10052.08 9792.12 11407.77 11407.77 9792.12 2481.03 2296.07 2296.07 2481.03 3650.15 2370.61 2370.61 3650.15 2587.73 3739.01 3739.01 2587.73 4299.45 1976.38 1976.38 4299.45 46926.02 46926.02 -12702.47 -12702.47 26053.07 26053.07 -7405.14 -7405.14 12607.06 12607.06 -2122.60 -2122.60 4651.06 4651.06 -1188.49 -1188.49 7132.27 7132.27 -6045.81 -6045.81 12357.93 12357.93 -4273.63 -4273.63 8291.76 8291.76 -3311.80 -3311.80 2809.64 2809.64
Kgf/m2 -4709.65 -4709.65 -10541.75 -10541.75 -9650.80 -9650.80 -11539.29 -11539.29 -13154.94 -13154.94 -1441.99 -1441.99 -1257.03 -1257.03 -5551.69 -5551.69 -4272.14 -4272.14 -7498.36 -7498.36 -8649.64 -8649.64 -14493.55 -14493.55 -12170.48 -12170.48 64229.20 9909.13 9909.13 64229.20 47404.59 16924.99 16924.99 47404.59 33316.40 19898.05 19898.05 33316.40 28029.90 22710.21 22710.21 28029.90 42034.38 30029.48 30029.48 42034.38 41152.53 26001.60 26001.60 41152.53 37662.55 27092.01 27092.01 37662.55 32091.87 28696.30
Page 35 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
Joint
70 70 71 71 71 71 72 72 72 72 73 73 73 73 74 74 74 74 75 75 75 75 76 76 76 76 77 77 77 77 78 78 78 78 79 79 79 79 80 80 80 80 81 81 81 81 82 82 82 82 83 83 83 83 84 84
70 70 71 71 71 71 72 72 72 72 73 73 73 73 74 74 74 74 75 75 75 75 76 76 76 76 77 77 77 77 78 78 78 78 79 79 79 79 80 80 80 80 81 81 81 81 82 82 82 82 83 83 83 83 84 84
94 93 91 90 95 96 90 92 97 95 92 93 98 97 93 94 99 98 96 95 100 101 95 97 102 100 97 98 103 102 98 99 104 103 101 100 105 106 100 102 107 105 102 103 108 107 103 104 109 108 106 105 110 111 105 107
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 3 of 4 OutputC SMaxBot SMinBot SAngleBot SVMBot ase Kgf/m2 Kgf/m2 Degrees Kgf/m2 COMB3 21037.56 -1182022.65 -12.775 1192680.60 COMB3 116486.96 -1159358.50 -18.728 1221773.91 COMB3 513349.71 -1348370.75 -30.934 1665478.12 COMB3 407521.27 -1308873.35 -28.955 1553260.05 COMB3 242731.89 -2037462.34 -20.963 2169038.64 COMB3 341931.86 -2066628.63 -22.636 2257103.78 COMB3 355265.08 -1384331.45 -30.559 1591977.22 COMB3 217227.27 -1217543.31 -27.860 1339433.84 COMB3 132669.22 -1862685.30 -17.028 1932438.53 COMB3 244200.77 -2000170.00 -20.207 2132781.54 COMB3 156811.97 -1185201.33 -26.655 1270883.92 COMB3 -479.31 -1132611.59 -19.546 1132372.01 COMB3 56117.69 -1864160.68 -13.365 1892843.53 COMB3 181495.04 -1882317.42 -18.222 1979315.69 COMB3 112177.56 -1118394.71 -18.694 1178494.51 COMB3 53336.37 -1110215.86 -14.039 1137822.00 COMB3 16913.81 -1848151.54 -9.893 1856666.23 COMB3 65585.28 -1844562.38 -12.892 1878214.03 COMB3 350100.45 -2092267.21 -23.198 2287499.97 COMB3 250711.14 -1970259.19 -20.649 2106832.52 COMB3 170434.83 -2759679.51 -14.455 2848723.32 COMB3 259129.56 -2867324.33 -16.681 3005279.59 COMB3 230995.41 -1964029.77 -20.155 2089127.49 COMB3 141841.15 -1911659.99 -17.076 1986382.36 COMB3 94718.50 -2722495.94 -12.546 2771069.56 COMB3 176427.44 -2764346.97 -14.905 2856649.69 COMB3 143644.53 -1925673.16 -17.336 2001365.36 COMB3 78968.10 -1856661.61 -14.055 1897378.54 COMB3 45828.42 -2651392.60 -9.806 2674601.30 COMB3 101004.06 -2708608.00 -12.310 2760496.25 COMB3 71497.19 -1851721.16 -13.565 1888485.10 COMB3 16831.11 -1831378.25 -9.235 1839851.55 COMB3 34480.23 -2634331.75 -7.030 2651740.00 COMB3 83010.08 -2646630.19 -10.070 2689096.31 COMB3 254336.61 -2821005.58 -16.733 2956390.46 COMB3 188873.60 -2754985.64 -14.642 2854113.37 COMB3 112040.93 -3648418.04 -11.146 3705709.05 COMB3 178736.31 -3711807.02 -12.811 3804325.53 COMB3 164034.21 -2770395.21 -14.833 2855947.55 COMB3 111102.22 -2698568.07 -12.687 2755799.38 COMB3 44700.07 -3575762.17 -9.390 3598320.44 COMB3 97005.23 -3643910.91 -11.104 3693369.08 COMB3 94699.97 -2696814.12 -12.319 2745389.36 COMB3 49240.72 -2676039.74 -9.778 2700996.75 COMB3 16411.99 -3555805.46 -7.744 3564039.79 COMB3 62492.88 -3574789.40 -9.678 3606441.94 COMB3 67277.64 -2678615.73 -9.815 2712880.29 COMB3 37557.67 -2654636.46 -7.159 2673613.16 COMB3 19122.77 -3520288.03 -5.594 3529888.27 COMB3 48805.96 -3542411.64 -7.615 3567065.05 COMB3 174268.11 -3701281.34 -12.835 3791420.34 COMB3 128157.44 -3610166.22 -11.244 3675920.85 COMB3 40554.52 -4564697.75 -8.452 4585109.52 COMB3 91823.98 -4657043.20 -9.767 4703627.46 COMB3 91748.84 -3613334.85 -11.019 3660071.84 COMB3 55840.61 -3578522.29 -9.551 3606766.80
SAP2000 v12.0.0
S13Avg
S23Avg
Kgf/m2 -917.76 -917.76 5350.92 5350.92 -2832.40 -2832.40 2780.11 2780.11 -1954.54 -1954.54 3698.86 3698.86 -1696.58 -1696.58 1882.53 1882.53 -1406.08 -1406.08 3074.90 3074.90 -2561.77 -2561.77 3244.31 3244.31 -1960.92 -1960.92 1669.85 1669.85 -1630.55 -1630.55 1103.23 1103.23 -1027.39 -1027.39 2392.83 2392.83 -1663.58 -1663.58 1930.29 1930.29 -1627.20 -1627.20 1914.64 1914.64 -1657.98 -1657.98 1261.47 1261.47 -1661.63 -1661.63 1614.43 1614.43 -1060.25 -1060.25 1790.59 1790.59
Kgf/m2 28696.30 32091.87 42245.14 34790.34 34790.34 42245.14 38231.47 33918.32 33918.32 38231.47 37075.06 32159.94 32159.94 37075.06 35837.28 32841.44 32841.44 35837.28 43066.07 37931.21 37931.21 43066.07 41545.78 36803.94 36803.94 41545.78 39501.30 36494.72 36494.72 39501.30 38017.58 36076.64 36076.64 38017.58 44985.72 41290.42 41290.42 44985.72 43574.12 40333.33 40333.33 43574.12 42496.55 39241.98 39241.98 42496.55 41258.13 38595.26 38595.26 41258.13 46906.79 44470.23 44470.23 46906.79 46184.17 43605.37
Page 36 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
Joint
84 84 85 85 85 85 86 86 86 86 87 87 87 87 88 88 88 88 89 89 89 89 90 90 90 90 91 91 91 91 92 92 92 92 93 93 93 93 94 94 94 94 95 95 95 95 96 96 96 96 97 97 97 97 98 98
84 84 85 85 85 85 86 86 86 86 87 87 87 87 88 88 88 88 89 89 89 89 90 90 90 90 91 91 91 91 92 92 92 92 93 93 93 93 94 94 94 94 95 95 95 95 96 96 96 96 97 97 97 97 98 98
112 110 107 108 113 112 108 109 114 113 111 110 115 116 110 112 117 115 112 113 118 117 113 114 119 118 116 115 120 121 115 117 122 120 117 118 123 122 118 119 124 123 123 124 125 126 122 123 126 127 120 122 127 128 121 120
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 3 of 4 OutputC SMaxBot SMinBot SAngleBot SVMBot ase Kgf/m2 Kgf/m2 Degrees Kgf/m2 COMB3 -37279.35 -4537868.00 -7.585 4519343.65 COMB3 4882.09 -4575822.44 -8.757 4578265.44 COMB3 48792.34 -3583031.71 -9.495 3607675.35 COMB3 27091.35 -3557481.62 -7.914 3571104.37 COMB3 -49711.06 -4503243.41 -6.360 4478594.80 COMB3 -22948.91 -4531405.95 -7.618 4519975.19 COMB3 38095.94 -3553932.59 -7.583 3573132.88 COMB3 16742.43 -3570617.91 -5.549 3579018.49 COMB3 -10809.04 -4502984.56 -4.928 4497589.78 COMB3 15490.96 -4489426.53 -6.531 4497192.02 COMB3 88053.89 -4667975.76 -9.833 4712619.72 COMB3 44260.35 -4555206.58 -8.378 4577497.24 COMB3 -27666.77 -5570393.02 -6.144 5556611.29 COMB3 21769.90 -5685018.69 -7.382 5695934.84 COMB3 -9414.01 -4571078.34 -8.419 4566378.61 COMB3 -12444.10 -4490184.09 -8.006 4483974.99 COMB3 -203027.32 -5510670.93 -5.965 5412014.17 COMB3 -188374.20 -5599967.20 -6.316 5508196.45 COMB3 -29758.25 -4480567.53 -7.312 4465762.76 COMB3 -36799.97 -4520886.97 -6.716 4502599.78 COMB3 -196136.63 -5548427.03 -6.073 5453004.88 COMB3 -179098.86 -5515614.28 -6.543 5428281.22 COMB3 2026.07 -4513489.75 -6.543 4514503.13 COMB3 -13384.14 -4556987.60 -4.847 4550310.29 COMB3 -43121.81 -5547409.64 -4.639 5525974.92 COMB3 -19574.99 -5509990.25 -6.017 5500228.88 COMB3 -16833.64 -5783043.19 -6.600 5774644.77 COMB3 -5085.38 -5540022.48 -6.881 5537481.54 COMB3 -286484.05 -6605377.04 -3.895 6466896.00 COMB3 -281361.38 -6861591.95 -3.740 6725326.86 COMB3 -191345.54 -5552625.76 -6.053 5459468.45 COMB3 -192529.24 -5521552.25 -6.261 5427849.16 COMB3 -457173.25 -6614821.35 -5.046 6398495.87 COMB3 -442963.98 -6655969.44 -4.856 6445912.78 COMB3 -196606.34 -5526653.02 -6.243 5431019.49 COMB3 -169273.74 -5493027.11 -6.420 5410376.62 COMB3 -430321.14 -6561418.01 -5.218 6357190.08 COMB3 -442430.47 -6607190.27 -5.044 6397459.32 COMB3 -36221.06 -5452252.00 -5.360 5434232.00 COMB3 -29191.03 -5609401.28 -5.294 5594862.89 COMB3 -238673.75 -6679327.57 -5.839 6563246.28 COMB3 -233616.11 -6531809.93 -5.890 6418191.45 COMB3 -89688.05 -6605070.09 83.747 6560685.87 COMB3 -91326.24 -6697218.91 84.856 6652025.99 COMB3 -118407.62 -7548275.02 84.698 7489773.22 COMB3 -103012.17 -7470176.69 83.735 7419206.98 COMB3 -302291.28 -6386351.05 85.951 6240698.81 COMB3 -284720.58 -6645471.43 83.959 6507784.10 COMB3 -724873.55 -7604807.77 82.928 7269526.73 COMB3 -743232.28 -7344680.56 84.733 7002708.27 COMB3 -352966.61 -6729688.94 86.376 6560331.02 COMB3 -262203.81 -6425009.51 83.802 6298002.54 COMB3 -820483.98 -7321873.47 86.731 6948060.53 COMB3 -872213.37 -7666292.49 89.065 7269536.02 COMB3 -130000.50 -6957533.35 85.957 6893452.52 COMB3 -151691.21 -6668532.37 86.696 6593995.49
SAP2000 v12.0.0
S13Avg
S23Avg
Kgf/m2 -1040.21 -1040.21 1673.61 1673.61 -2023.53 -2023.53 1739.80 1739.80 -2063.28 -2063.28 1198.11 1198.11 -126.21 -126.21 1599.42 1599.42 -1670.61 -1670.61 1729.93 1729.93 -1532.78 -1532.78 1890.17 1890.17 -2467.21 -2467.21 -481.54 -481.54 371.56 371.56 955.67 955.67 156.97 156.97 2147.62 2147.62 -3788.99 -3788.99 2908.48 2908.48 -2977.09 -2977.09 43819.40 40879.30 40879.30 43819.40 45327.44 47521.29 47521.29 45327.44 51196.51 44115.92 44115.92 51196.51 45825.02 44910.34
Kgf/m2 43605.37 46184.17 45541.22 42173.22 42173.22 45541.22 44348.65 40884.14 40884.14 44348.65 48643.58 47437.16 47437.16 48643.58 49537.52 46558.60 46558.60 49537.52 48523.73 45551.48 45551.48 48523.73 47084.71 43115.26 43115.26 47084.71 50645.08 51422.24 51422.24 50645.08 51057.89 50330.29 50330.29 51057.89 52321.95 46913.84 46913.84 52321.95 50730.32 45368.70 45368.70 50730.32 -684.93 -684.93 2255.18 2255.18 -222.99 -222.99 -2416.84 -2416.84 -1622.01 -1622.01 5458.58 5458.58 -1064.65 -1064.65
Page 37 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
Joint
98 98 99 99 99 99 100 100 100 100 101 101 101 101 102 102 102 102 103 103 103 103 104 104 104 104 105 105 105 105 106 106 106 106 107 107 107 107 109 109 109 109 110 110 110 110 111 111 111 111 112 112 112 112 113 113
98 98 99 99 99 99 100 100 100 100 101 101 101 101 102 102 102 102 103 103 103 103 104 104 104 104 105 105 105 105 106 106 106 106 107 107 107 107 108 108 108 108 109 109 109 109 110 110 110 110 111 111 111 111 112 112
128 129 126 125 130 131 127 126 131 132 128 127 132 133 129 128 133 134 131 130 135 136 132 131 136 137 133 132 137 138 134 133 138 139 155 1 2 156 156 2 5 157 157 5 7 158 158 7 9 159 160 155 156 161 161 156
G. Ginanjar – NIM : 08114723
Table: Element Stresses - Area Shells, Part 3 of 4 OutputC SMaxBot SMinBot SAngleBot SVMBot ase Kgf/m2 Kgf/m2 Degrees Kgf/m2 COMB3 -228401.35 -7554874.65 88.905 7443302.66 COMB3 -208280.06 -7842397.44 88.158 7740359.37 COMB3 -97646.50 -7092216.27 85.736 7043900.65 COMB3 -103777.63 -7880591.24 82.817 7829218.29 COMB3 -661844.21 -8969450.01 79.195 8657522.32 COMB3 -687711.83 -8148669.84 81.557 7827504.78 COMB3 -776171.46 -7487109.99 85.405 7130776.75 COMB3 -649532.65 -7311567.55 82.062 7009408.74 COMB3 -1353707.34 -8170611.68 84.161 7584906.19 COMB3 -1428611.28 -8398085.17 87.410 7782747.94 COMB3 -858964.17 -7488922.16 89.711 7098525.11 COMB3 -820277.98 -7474980.51 86.154 7100466.72 COMB3 -1513097.15 -8432338.26 86.599 7786837.90 COMB3 -1545479.05 -8453147.99 -89.982 7796156.32 COMB3 -302275.58 -8285876.14 -89.885 8138949.31 COMB3 -170699.52 -7364229.44 86.799 7280380.70 COMB3 -876597.11 -8355123.47 -87.162 7953139.86 COMB3 -925780.84 -9359994.33 -84.622 8933155.13 COMB3 -730342.28 -8365269.68 82.475 8025062.40 COMB3 -173942.92 -7056110.36 75.870 6970766.75 COMB3 -1549295.19 -7586150.20 86.918 6942391.84 COMB3 -1776343.46 -9226244.43 -87.583 8478797.28 COMB3 -1535254.81 -8947987.04 86.805 8287704.10 COMB3 -1410317.28 -8370553.80 85.104 7762089.22 COMB3 -1877749.97 -9266412.52 89.288 8484830.00 COMB3 -1952116.23 -9895549.73 -89.369 9078292.74 COMB3 -1689307.81 -9178325.53 88.893 8461111.24 COMB3 -1629958.35 -8939178.42 87.917 8245919.39 COMB3 -1989503.83 -9914152.20 89.553 9084288.39 COMB3 -2027239.01 -10175021.7 -89.585 9328106.10 COMB3 -742650.34 -8457838.45 -83.091 8112049.32 COMB3 -987956.31 -9057460.52 -88.280 8606118.37 COMB3 -1998906.71 -10171485.3 87.636 9333964.33 COMB3 -1887563.79 -9437710.68 -87.397 8649797.63 COMB3 4790515.73 -381329.41 -3.084 4992115.54 COMB3 1036569.43 -130974.92 -1.981 1107878.70 COMB3 1683482.43 -406008.40 24.238 1918974.70 COMB3 5133148.52 -351519.85 5.728 5317629.50 COMB3 5388794.31 452409.62 10.448 5177435.29 COMB3 1415113.26 -487983.83 14.135 1712082.40 COMB3 830599.74 -518136.78 12.200 1178442.15 COMB3 4810442.72 415060.73 9.401 4616926.33 COMB3 4715264.10 574125.47 3.082 4456027.65 COMB3 1141429.82 -809887.55 25.714 1698001.67 COMB3 1591103.72 -530702.23 16.236 1912500.51 COMB3 5376517.60 643041.36 0.353 5085579.66 COMB3 5251059.55 -277395.76 3.670 5395108.57 COMB3 1499291.80 -79884.99 9.229 1540788.24 COMB3 1878848.52 -681236.93 28.057 2296540.12 COMB3 5333756.86 -582166.05 11.605 5647389.81 COMB3 17003306.95 1934646.14 5.384 16123272.65 COMB3 5794191.49 -206274.27 1.500 5900033.62 COMB3 4249944.47 -426817.92 1.308 4478633.06 COMB3 15458811.01 1713846.18 5.695 14677127.87 COMB3 15574801.03 3105144.29 2.312 14277756.96 COMB3 4676485.35 273400.48 12.947 4545955.31
SAP2000 v12.0.0
S13Avg
S23Avg
Kgf/m2 44910.34 45825.02 44242.07 48317.62 48317.62 44242.07 47328.67 45361.54 45361.54 47328.67 50970.00 45316.95 45316.95 50970.00 54005.00 45664.44 45664.44 54005.00 55435.52 39555.09 39555.09 55435.52 53514.71 42157.47 42157.47 53514.71 50080.90 48997.10 48997.10 50080.90 53588.50 55488.06 55488.06 53588.50 184211.23 184211.23 189854.55 189854.55 201211.72 201211.72 190844.11 190844.11 190275.57 190275.57 203412.19 203412.19 190025.12 190025.12 187240.18 187240.18 555984.74 555984.74 550918.93 550918.93 556724.23 556724.23
Kgf/m2 -149.97 -149.97 -2815.01 -2815.01 -6890.56 -6890.56 545.77 545.77 2512.90 2512.90 -2403.47 -2403.47 3249.58 3249.58 1177.98 1177.98 9518.55 9518.55 4550.48 4550.48 20430.91 20430.91 -1395.68 -1395.68 9961.56 9961.56 1710.46 1710.46 2794.26 2794.26 -5309.68 -5309.68 -7209.24 -7209.24 -6448.06 -804.74 -804.74 -6448.06 9326.46 -1041.16 -1041.16 9326.46 -9936.34 3200.27 3200.27 -9936.34 5479.75 2694.80 2694.80 5479.75 13531.12 8465.31 8465.31 13531.12 -1006.14 -3732.22
Page 38 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
AreaEle m
Joint
113 113 114 114 114 114 115 115 115 115 116 116 116 116 117 117 117 117 118 118 118 118 119 119 119 119
112 112 113 113 113 113 114 114 114 114 115 115 115 115 116 116 116 116 117 117 117 117 118 118 118 118
157 162 162 157 158 163 163 158 159 164 168 163 164 169 167 162 163 168 166 161 162 167 165 160 161 166
Table: Element Stresses - Area Shells, Part 3 of 4 OutputC SMaxBot SMinBot SAngleBot SVMBot ase Kgf/m2 Kgf/m2 Degrees Kgf/m2 COMB3 5086452.17 471003.70 7.956 4868069.68 COMB3 16134273.20 3152970.29 0.768 14811654.51 COMB3 16167095.48 3236368.63 2.296 14816422.56 COMB3 5033820.19 583049.65 3.930 4769101.13 COMB3 4754944.06 561993.38 -0.816 4500342.48 COMB3 15880396.68 3224183.23 0.696 14538949.33 COMB3 15664470.53 1860593.19 -2.810 14822018.64 COMB3 4668667.69 -477380.88 8.717 4924741.94 COMB3 6403598.06 -215068.12 6.539 6513795.53 COMB3 17455447.41 2067729.25 -2.602 16518928.82 COMB3 35217522.36 7010423.74 1.100 32288235.74 COMB3 16721849.17 2048184.01 -0.573 15797654.05 COMB3 15999807.91 1745408.13 -5.024 15202437.56 COMB3 34330061.00 6873135.92 -1.159 31461689.56 COMB3 34825156.04 6974579.78 -0.025 31914658.50 COMB3 16548934.97 3331055.89 1.411 15160400.87 COMB3 16956946.46 3427709.54 1.491 15529447.47 COMB3 35261559.79 7042748.26 0.029 32320885.09 COMB3 34401371.18 6907200.51 0.029 31520574.07 COMB3 16130002.63 3208205.94 1.553 14789225.81 COMB3 16533149.87 3247211.62 1.382 15172435.25 COMB3 34816176.41 6936289.94 -0.032 31918382.85 COMB3 32598541.09 6562148.37 1.177 29863191.54 COMB3 14505582.72 1304829.30 8.447 13899179.84 COMB3 15948988.75 1858515.71 3.511 15105723.31 COMB3 34355633.82 6803622.93 -1.087 31509618.88
SAP2000 v12.0.0
S13Avg
S23Avg
Kgf/m2 553998.14 553998.14 550728.27 550728.27 561238.36 561238.36 549847.72 549847.72 558568.97 558568.97 921768.36 921768.36 922449.91 922449.91 914654.54 914654.54 913722.82 913722.82 904797.34 904797.34 922261.25 922261.25 912251.03 912251.03 927038.78 927038.78
Kgf/m2 -3732.22 -1006.14 -3451.81 7058.27 7058.27 -3451.81 -15242.15 -6520.91 -6520.91 -15242.15 7936.70 8618.25 8618.25 7936.70 -3679.88 -4611.59 -4611.59 -3679.88 -10389.02 7074.88 7074.88 -10389.02 -21433.71 -6645.96 -6645.96 -21433.71
Table: Element Stresses - Area Shells, Part 4 of 4 Area
1 1 1 1 2 2 2 2 3 3 3 3 4 4 4 4 5 5 5 5 6 6
Table: Element Stresses - Area Shells, Part 4 of 4 AreaEle Joint OutputC SMaxAvg SAngleAvg m ase Kgf/m2 Degrees 1 1 COMB3 7932.66 -57.842 1 2 COMB3 14362.94 -72.905 1 3 COMB3 14161.51 -104.208 1 4 COMB3 7561.83 -117.364 2 2 COMB3 9131.89 -39.687 2 5 COMB3 16509.55 -64.808 2 6 COMB3 15231.70 -101.245 2 3 COMB3 6544.51 -116.992 3 5 COMB3 14889.96 -111.019 3 7 COMB3 10084.92 -121.977 3 8 COMB3 8570.81 -86.481 3 6 COMB3 13909.14 -87.832 4 7 COMB3 14593.02 -99.809 4 9 COMB3 11138.22 -102.897 4 10 COMB3 10944.65 -82.753 4 8 COMB3 14445.82 -84.516 5 4 COMB3 5796.25 -70.592 5 3 COMB3 8291.81 -76.568 5 11 COMB3 8117.99 -96.550 5 12 COMB3 5544.76 -99.613 6 3 COMB3 7090.37 -83.704 6 6 COMB3 9265.86 -85.186
G. Ginanjar – NIM : 08114723
Page 39 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
6 6 7 7 7 7 8 8 8 8 9 9 9 9 10 10 10 10 11 11 11 11 12 12 12 12 13 13 13 13 14 14 14 14 15 15 15 15 16 16 16 16 17 17 17 17 18 18 18 18 19 19 19 19 20 20
SAP2000 v12.0.0
Table: Element Stresses - Area Shells, Part 4 of 4 AreaEle Joint OutputC SMaxAvg SAngleAvg m ase Kgf/m2 Degrees 6 13 COMB3 9374.48 -99.961 6 11 COMB3 7231.73 -102.957 7 6 COMB3 7902.04 -79.258 7 8 COMB3 10375.47 -81.839 7 14 COMB3 10349.71 -97.098 7 13 COMB3 7868.19 -99.355 8 8 COMB3 8399.12 -88.564 8 10 COMB3 10326.43 -88.832 8 15 COMB3 10498.69 -100.458 8 14 COMB3 8610.03 -102.787 9 12 COMB3 3224.08 -65.631 9 11 COMB3 5933.07 -77.043 9 16 COMB3 6053.62 -107.228 9 17 COMB3 3440.88 -121.404 10 11 COMB3 3689.67 -54.147 10 13 COMB3 6995.22 -72.005 10 18 COMB3 6907.95 -105.614 10 16 COMB3 3521.42 -121.870 11 13 COMB3 5050.51 -85.733 11 14 COMB3 6499.09 -86.685 11 19 COMB3 6601.51 -100.630 11 18 COMB3 5181.64 -103.593 12 14 COMB3 6083.10 -75.834 12 15 COMB3 8574.09 -80.001 12 20 COMB3 8544.21 -98.791 12 19 COMB3 6040.92 -102.483 13 17 COMB3 1436.46 10.952 13 16 COMB3 2930.45 -61.233 13 21 COMB3 3085.39 -123.637 13 22 COMB3 1730.75 170.928 14 16 COMB3 1602.91 -45.175 14 18 COMB3 3748.15 -72.454 14 23 COMB3 3893.47 -113.381 14 21 COMB3 1918.27 -143.654 15 18 COMB3 2473.35 -44.289 15 19 COMB3 5268.38 -70.363 15 24 COMB3 5271.76 -109.740 15 23 COMB3 2480.54 -135.873 16 19 COMB3 3091.98 -57.699 16 20 COMB3 5821.17 -73.511 16 25 COMB3 5808.24 -106.053 16 24 COMB3 3067.56 -121.572 17 22 COMB3 4100.17 60.627 17 21 COMB3 2052.63 -11.542 17 26 COMB3 2397.38 -170.136 17 27 COMB3 4283.17 123.466 18 21 COMB3 3261.24 54.993 18 23 COMB3 2374.65 -38.015 18 28 COMB3 3041.48 -151.260 18 26 COMB3 3774.56 134.952 19 23 COMB3 1529.92 30.320 19 24 COMB3 2122.04 -51.512 19 29 COMB3 2140.75 -129.113 19 28 COMB3 1555.76 150.235 20 24 COMB3 1319.40 -17.068 20 25 COMB3 2932.89 -64.529
G. Ginanjar – NIM : 08114723
Page 40 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
20 20 21 21 21 21 22 22 22 22 23 23 23 23 24 24 24 24 25 25 25 25 26 26 26 26 27 27 27 27 28 28 28 28 29 29 29 29 30 30 30 30 31 31 31 31 32 32 32 32 33 33 33 33 34 34
SAP2000 v12.0.0
Table: Element Stresses - Area Shells, Part 4 of 4 AreaEle Joint OutputC SMaxAvg SAngleAvg m ase Kgf/m2 Degrees 20 30 COMB3 2915.45 -114.742 20 29 COMB3 1280.17 -162.392 21 27 COMB3 8047.61 75.521 21 26 COMB3 3123.99 49.904 21 31 COMB3 4589.41 148.620 21 32 COMB3 8721.67 116.695 22 26 COMB3 4625.56 72.213 22 28 COMB3 2158.73 49.113 22 33 COMB3 2306.81 134.971 22 31 COMB3 4696.50 110.312 23 28 COMB3 4260.36 67.106 23 29 COMB3 1700.27 -12.890 23 34 COMB3 3090.58 -172.951 23 33 COMB3 4981.11 128.008 24 29 COMB3 3599.02 62.360 24 30 COMB3 1677.89 -5.688 24 35 COMB3 2019.65 -175.277 24 34 COMB3 3770.49 122.264 25 32 COMB3 12381.84 68.890 25 31 COMB3 6007.34 42.070 25 36 COMB3 5536.76 133.366 25 37 COMB3 12160.50 108.218 26 31 COMB3 12864.09 73.652 26 33 COMB3 3623.68 -2.300 26 38 COMB3 10090.26 -179.174 26 36 COMB3 15942.62 129.260 27 33 COMB3 10469.74 72.670 27 34 COMB3 3181.19 11.375 27 39 COMB3 7191.14 174.994 27 38 COMB3 12296.67 125.632 28 34 COMB3 5227.44 76.965 28 35 COMB3 2015.43 54.198 28 40 COMB3 3085.63 148.012 28 39 COMB3 5725.84 117.198 29 37 COMB3 35226.14 76.302 29 36 COMB3 10974.36 -40.526 29 41 COMB3 37734.74 -169.107 29 42 COMB3 50441.60 137.274 30 36 COMB3 23539.23 75.097 30 38 COMB3 6421.75 -19.486 30 43 COMB3 21375.50 -174.249 30 41 COMB3 31141.10 133.075 31 38 COMB3 11359.12 79.804 31 39 COMB3 2022.29 -6.132 31 44 COMB3 10500.92 -178.821 31 43 COMB3 15336.53 133.201 32 39 COMB3 7075.67 78.871 32 40 COMB3 2305.45 53.672 32 45 COMB3 4607.40 156.226 32 44 COMB3 8122.69 121.271 33 42 COMB3 16018.04 -132.568 33 41 COMB3 12912.61 -113.993 33 46 COMB3 18157.59 -106.808 33 47 COMB3 20482.68 -121.939 34 41 COMB3 10535.23 -101.436 34 43 COMB3 10969.49 -109.721
G. Ginanjar – NIM : 08114723
Page 41 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
34 34 35 35 35 35 36 36 36 36 37 37 37 37 38 38 38 38 39 39 39 39 40 40 40 40 41 41 41 41 42 42 42 42 43 43 43 43 44 44 44 44 45 45 45 45 46 46 46 46 47 47 47 47 48 48
SAP2000 v12.0.0
Table: Element Stresses - Area Shells, Part 4 of 4 AreaEle Joint OutputC SMaxAvg SAngleAvg m ase Kgf/m2 Degrees 34 48 COMB3 9466.99 -113.017 34 46 COMB3 8960.22 -103.481 35 43 COMB3 6282.88 -124.751 35 44 COMB3 5831.15 -117.713 35 49 COMB3 6613.37 -114.207 35 48 COMB3 7014.91 -120.699 36 44 COMB3 2384.64 -142.331 36 45 COMB3 1945.74 -131.501 36 50 COMB3 2426.41 -122.098 36 49 COMB3 2790.71 -132.561 37 47 COMB3 10406.17 -131.659 37 46 COMB3 7916.54 -100.866 37 51 COMB3 13283.22 -96.451 37 52 COMB3 14901.71 -117.657 38 46 COMB3 8358.19 -116.390 38 48 COMB3 7713.94 -103.927 38 53 COMB3 9528.23 -101.236 38 51 COMB3 10056.92 -111.679 39 48 COMB3 4438.70 -105.023 39 49 COMB3 4403.22 -103.194 39 54 COMB3 4545.05 -102.775 39 53 COMB3 4579.43 -104.551 40 49 COMB3 1806.94 -156.069 40 50 COMB3 732.97 -89.997 40 55 COMB3 2384.61 -89.999 40 54 COMB3 2900.71 -124.707 41 52 COMB3 12855.14 -91.812 41 51 COMB3 12960.81 -97.541 41 56 COMB3 11678.83 -98.375 41 57 COMB3 11561.44 -92.015 42 51 COMB3 6383.22 -106.217 42 53 COMB3 6129.31 -89.754 42 58 COMB3 7938.28 -89.810 42 56 COMB3 8135.93 -102.657 43 53 COMB3 4460.11 -94.272 43 54 COMB3 4558.83 -102.676 43 59 COMB3 3909.71 -104.825 43 58 COMB3 3794.14 -95.023 44 54 COMB3 931.06 -92.484 44 55 COMB3 937.62 -82.783 44 60 COMB3 1094.69 -83.823 44 59 COMB3 1089.08 -92.123 45 61 COMB3 73537.47 -50.912 45 62 COMB3 58180.06 -101.169 45 63 COMB3 11283.58 177.165 45 64 COMB3 46369.80 0.690 46 62 COMB3 45213.47 -76.200 46 42 COMB3 52993.80 -124.049 46 47 COMB3 29871.58 -173.363 46 63 COMB3 11323.72 -17.751 47 64 COMB3 46746.61 -60.404 47 63 COMB3 42262.10 -105.889 47 65 COMB3 13028.72 -152.630 47 66 COMB3 23851.79 -14.544 48 63 COMB3 39956.10 -68.516 48 47 COMB3 40314.38 -112.743
G. Ginanjar – NIM : 08114723
Page 42 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
48 48 49 49 49 49 50 50 50 50 51 51 51 51 52 52 52 52 53 53 53 53 54 54 54 54 55 55 55 55 56 56 56 56 57 57 57 57 58 58 58 58 59 59 59 59 60 60 60 60 61 61 61 61 62 62
SAP2000 v12.0.0
Table: Element Stresses - Area Shells, Part 4 of 4 AreaEle Joint OutputC SMaxAvg SAngleAvg m ase Kgf/m2 Degrees 48 52 COMB3 17069.19 -155.933 48 65 COMB3 16204.87 -25.439 49 66 COMB3 24382.76 -73.754 49 65 COMB3 23537.86 -95.996 49 67 COMB3 14341.25 -99.872 49 68 COMB3 15689.48 -64.229 50 65 COMB3 22274.37 -80.534 50 52 COMB3 22386.70 -101.058 50 57 COMB3 14657.28 -107.034 50 67 COMB3 14485.13 -75.351 51 69 COMB3 14350.77 -8.728 51 70 COMB3 14273.87 -8.775 51 71 COMB3 14262.21 -8.466 51 72 COMB3 14339.17 -8.421 52 70 COMB3 17199.47 -24.179 52 73 COMB3 16840.64 -24.728 52 74 COMB3 16679.59 -23.498 52 71 COMB3 17041.81 -22.970 53 73 COMB3 22882.59 -40.272 53 75 COMB3 18873.68 -51.602 53 76 COMB3 14812.86 -37.685 53 74 COMB3 19667.69 -27.414 54 75 COMB3 30976.92 -45.912 54 61 COMB3 26942.47 -55.673 54 64 COMB3 21985.32 -46.285 54 76 COMB3 26777.37 -36.401 55 72 COMB3 7890.21 -10.513 55 71 COMB3 8827.16 -9.386 55 77 COMB3 9031.18 -15.351 55 78 COMB3 8117.81 -17.128 56 71 COMB3 10705.94 -34.247 56 74 COMB3 9647.20 -38.647 56 79 COMB3 8885.40 -32.008 56 77 COMB3 10024.92 -28.021 57 74 COMB3 14566.15 -46.362 57 76 COMB3 13966.20 -49.008 57 80 COMB3 13306.55 -46.491 57 79 COMB3 13934.93 -43.833 58 76 COMB3 15134.10 -49.682 58 64 COMB3 16226.29 -45.328 58 66 COMB3 17412.34 -49.069 58 80 COMB3 16399.33 -53.337 59 78 COMB3 2869.65 -30.165 59 77 COMB3 2711.32 -32.130 59 81 COMB3 2617.64 -28.699 59 82 COMB3 2781.30 -26.869 60 77 COMB3 6644.16 -56.676 60 79 COMB3 6036.64 -66.877 60 83 COMB3 4885.79 -60.974 60 81 COMB3 5619.14 -49.489 61 79 COMB3 7932.33 -70.960 61 80 COMB3 8378.88 -63.497 61 84 COMB3 9423.19 -66.622 61 83 COMB3 9028.44 -73.344 62 80 COMB3 15117.81 -73.477 62 66 COMB3 14627.68 -82.235
G. Ginanjar – NIM : 08114723
Page 43 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
62 62 63 63 63 63 64 64 64 64 65 65 65 65 66 66 66 66 67 67 67 67 68 68 68 68 69 69 69 69 70 70 70 70 71 71 71 71 72 72 72 72 73 73 73 73 74 74 74 74 75 75 75 75 76 76
SAP2000 v12.0.0
Table: Element Stresses - Area Shells, Part 4 of 4 AreaEle Joint OutputC SMaxAvg SAngleAvg m ase Kgf/m2 Degrees 62 68 COMB3 12329.91 -80.776 62 84 COMB3 12907.59 -70.543 63 61 COMB3 79545.21 53.848 63 75 COMB3 47960.84 11.924 63 85 COMB3 16110.36 142.042 63 86 COMB3 65473.22 101.187 64 75 COMB3 54092.12 61.207 64 73 COMB3 31067.96 33.009 64 87 COMB3 18474.08 113.631 64 85 COMB3 47979.49 98.878 65 73 COMB3 35621.91 69.273 65 70 COMB3 23555.68 57.642 65 88 COMB3 20010.94 96.089 65 87 COMB3 33383.95 93.645 66 70 COMB3 28413.16 80.579 66 69 COMB3 23181.59 78.426 66 89 COMB3 22741.29 92.996 66 88 COMB3 28055.09 92.428 67 86 COMB3 42635.18 80.370 67 85 COMB3 30864.85 76.639 67 90 COMB3 30632.03 101.383 67 91 COMB3 42466.94 98.185 68 85 COMB3 42968.00 73.285 68 87 COMB3 28788.91 64.579 68 92 COMB3 26350.47 99.334 68 90 COMB3 41373.84 95.929 69 87 COMB3 38564.51 77.584 69 88 COMB3 28332.49 72.983 69 93 COMB3 27293.68 96.969 69 92 COMB3 37807.88 95.025 70 88 COMB3 32214.63 84.997 70 89 COMB3 28833.52 84.408 70 94 COMB3 28710.97 91.832 70 93 COMB3 32104.99 91.638 71 91 COMB3 42582.67 82.781 71 90 COMB3 35199.43 81.256 71 95 COMB3 34905.44 94.654 71 96 COMB3 42339.98 93.836 72 90 COMB3 38332.42 85.841 72 92 COMB3 34032.06 85.314 72 97 COMB3 33974.59 93.298 72 95 COMB3 38281.40 92.927 73 92 COMB3 37259.11 84.303 73 93 COMB3 32371.95 83.439 73 98 COMB3 32204.66 93.020 73 97 COMB3 37113.85 92.620 74 93 COMB3 35886.69 86.993 74 94 COMB3 32895.35 86.719 74 99 COMB3 32871.53 92.452 74 98 COMB3 35864.86 92.247 75 96 COMB3 43175.71 85.916 75 95 COMB3 38055.64 85.365 75 100 COMB3 38017.62 93.864 75 101 COMB3 43142.20 93.404 76 95 COMB3 41672.26 85.535 76 97 COMB3 36946.66 84.962
G. Ginanjar – NIM : 08114723
Page 44 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
76 76 77 77 77 77 78 78 78 78 79 79 79 79 80 80 80 80 81 81 81 81 82 82 82 82 83 83 83 83 84 84 84 84 85 85 85 85 86 86 86 86 87 87 87 87 88 88 88 88 89 89 89 89 90 90
SAP2000 v12.0.0
Table: Element Stresses - Area Shells, Part 4 of 4 AreaEle Joint OutputC SMaxAvg SAngleAvg m ase Kgf/m2 Degrees 76 102 COMB3 36856.14 93.050 76 100 COMB3 41592.03 92.702 77 97 COMB3 39536.58 87.579 77 98 COMB3 36532.91 87.380 77 103 COMB3 36531.13 92.558 77 102 COMB3 39534.94 92.364 78 98 COMB3 38033.58 88.338 78 99 COMB3 36093.50 88.248 78 104 COMB3 36091.26 91.631 78 103 COMB3 38031.46 91.548 79 101 COMB3 45049.31 86.955 79 100 COMB3 41359.70 86.683 79 105 COMB3 41323.92 92.307 79 106 COMB3 45016.47 92.118 80 100 COMB3 43616.85 87.464 80 102 COMB3 40379.50 87.260 80 107 COMB3 40366.14 92.310 80 105 COMB3 43604.49 92.139 81 102 COMB3 42539.66 87.420 81 103 COMB3 39288.66 87.207 81 108 COMB3 39276.99 92.419 81 107 COMB3 42528.88 92.234 82 103 COMB3 41277.41 88.249 82 104 COMB3 38615.87 88.128 82 109 COMB3 38631.01 92.465 82 108 COMB3 41291.57 92.306 83 106 COMB3 46934.56 88.029 83 105 COMB3 44499.52 87.921 83 110 COMB3 44482.86 91.366 83 111 COMB3 46918.77 91.295 84 105 COMB3 46218.86 87.780 84 107 COMB3 43642.12 87.649 84 112 COMB3 43617.78 91.367 84 110 COMB3 46195.88 91.290 85 107 COMB3 45571.96 87.895 85 108 COMB3 42206.41 87.727 85 113 COMB3 42221.73 92.747 85 112 COMB3 45586.15 92.544 86 108 COMB3 44382.76 87.753 86 109 COMB3 40921.14 87.563 86 114 COMB3 40936.17 92.889 86 113 COMB3 44396.62 92.664 87 111 COMB3 48658.33 88.589 87 110 COMB3 47452.29 88.553 87 115 COMB3 47437.33 90.152 87 116 COMB3 48643.74 90.149 88 110 COMB3 49563.33 88.151 88 112 COMB3 46586.06 88.032 88 117 COMB3 46588.56 92.055 88 115 COMB3 49565.68 91.932 89 112 COMB3 48554.56 87.958 89 113 COMB3 45584.31 87.825 89 118 COMB3 45577.26 91.927 89 117 COMB3 48547.93 91.809 90 113 COMB3 47122.64 87.701 90 114 COMB3 43156.67 87.490
G. Ginanjar – NIM : 08114723
Page 45 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
90 90 91 91 91 91 92 92 92 92 93 93 93 93 94 94 94 94 95 95 95 95 96 96 96 96 97 97 97 97 98 98 98 98 99 99 99 99 100 100 100 100 101 101 101 101 102 102 102 102 103 103 103 103 104 104
SAP2000 v12.0.0
Table: Element Stresses - Area Shells, Part 4 of 4 AreaEle Joint OutputC SMaxAvg SAngleAvg m ase Kgf/m2 Degrees 90 119 COMB3 43185.79 93.275 90 118 COMB3 47149.31 93.000 91 116 COMB3 50647.37 90.545 91 115 COMB3 51424.49 90.537 91 120 COMB3 51423.58 89.586 91 121 COMB3 50646.44 89.580 92 115 COMB3 51066.83 88.928 92 117 COMB3 50339.36 88.912 92 122 COMB3 50330.53 89.821 92 120 COMB3 51058.13 89.824 93 117 COMB3 52366.01 87.650 93 118 COMB3 46962.97 87.379 93 123 COMB3 47066.60 94.617 93 122 COMB3 52458.96 94.142 94 118 COMB3 50813.62 86.719 94 119 COMB3 45461.84 86.332 94 124 COMB3 45466.28 93.754 94 123 COMB3 50817.60 93.359 95 123 COMB3 43824.76 -0.895 95 124 COMB3 40885.04 -0.960 95 125 COMB3 40941.46 3.158 95 126 COMB3 43877.40 2.946 96 122 COMB3 45327.98 -0.282 96 123 COMB3 47521.81 -0.269 96 126 COMB3 47582.71 -2.911 96 127 COMB3 45391.82 -3.052 97 120 COMB3 51222.20 -1.815 97 122 COMB3 44145.73 -2.106 97 127 COMB3 44452.34 7.054 97 128 COMB3 51486.68 6.086 98 121 COMB3 45837.39 -1.331 98 120 COMB3 44922.96 -1.358 98 128 COMB3 44910.59 -0.191 98 129 COMB3 45825.27 -0.188 99 126 COMB3 44331.53 -3.641 99 125 COMB3 48399.55 -3.334 99 130 COMB3 48806.47 -8.116 99 131 COMB3 44775.44 -8.853 100 127 COMB3 47331.81 0.661 100 126 COMB3 45364.83 0.689 100 131 COMB3 45431.09 3.171 100 132 COMB3 47395.33 3.039 101 128 COMB3 51026.63 -2.700 101 127 COMB3 45380.64 -3.036 101 132 COMB3 45433.31 4.102 101 133 COMB3 51073.48 3.648 102 129 COMB3 54017.85 1.250 102 128 COMB3 45679.63 1.478 102 133 COMB3 46645.94 11.774 102 134 COMB3 54837.42 9.996 103 131 COMB3 55621.98 4.693 103 130 COMB3 39815.98 6.563 103 135 COMB3 44519.97 27.317 103 136 COMB3 59080.62 20.231 104 132 COMB3 53532.91 -1.494 104 131 COMB3 42180.57 -1.896
G. Ginanjar – NIM : 08114723
Page 46 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
104 104 105 105 105 105 106 106 106 106 107 107 107 107 109 109 109 109 110 110 110 110 111 111 111 111 112 112 112 112 113 113 113 113 114 114 114 114 115 115 115 115 116 116 116 116 117 117 117 117 118 118 118 118 119 119
SAP2000 v12.0.0
Table: Element Stresses - Area Shells, Part 4 of 4 AreaEle Joint OutputC SMaxAvg SAngleAvg m ase Kgf/m2 Degrees 104 136 COMB3 43318.42 13.295 104 137 COMB3 54433.97 10.545 105 133 COMB3 50110.10 1.956 105 132 COMB3 49026.94 1.999 105 137 COMB3 49076.71 3.264 105 138 COMB3 50158.79 3.194 106 134 COMB3 53850.91 -5.659 106 133 COMB3 55741.53 -5.466 106 138 COMB3 55954.43 -7.403 106 139 COMB3 54071.26 -7.662 107 155 COMB3 184324.05 -2.005 107 1 COMB3 184212.99 -0.250 107 2 COMB3 189856.26 -0.243 107 156 COMB3 189964.02 -1.945 108 156 COMB3 201427.75 2.654 108 2 COMB3 201214.42 -0.296 108 5 COMB3 190846.95 -0.313 108 157 COMB3 191071.86 2.798 109 157 COMB3 190534.84 -2.989 109 5 COMB3 190302.48 0.964 109 7 COMB3 203437.36 0.901 109 158 COMB3 203654.73 -2.797 110 158 COMB3 190104.12 1.652 110 7 COMB3 190044.23 0.812 110 9 COMB3 187259.57 0.825 110 159 COMB3 187320.35 1.676 111 160 COMB3 556149.37 1.394 111 155 COMB3 556049.18 0.872 111 156 COMB3 550983.96 0.880 111 161 COMB3 551085.07 1.407 112 161 COMB3 556725.13 -0.104 112 156 COMB3 556736.74 -0.384 112 157 COMB3 554010.71 -0.386 112 162 COMB3 553999.06 -0.104 113 162 COMB3 550739.09 -0.359 113 157 COMB3 550773.50 0.734 113 158 COMB3 561282.74 0.721 113 163 COMB3 561248.97 -0.352 114 163 COMB3 550058.94 -1.588 114 158 COMB3 549886.39 -0.679 114 159 COMB3 558607.03 -0.669 114 164 COMB3 558776.89 -1.563 115 168 COMB3 921802.53 0.493 115 163 COMB3 921808.65 0.536 115 164 COMB3 922490.17 0.535 115 169 COMB3 922484.05 0.493 116 167 COMB3 914661.94 -0.231 116 162 COMB3 914666.16 -0.289 116 163 COMB3 913734.46 -0.289 116 168 COMB3 913730.23 -0.231 117 166 COMB3 904856.98 -0.658 117 161 COMB3 904825.00 0.448 117 162 COMB3 922288.39 0.440 117 167 COMB3 922319.76 -0.645 118 165 COMB3 912502.79 -1.346 118 160 COMB3 912275.24 -0.417
G. Ginanjar – NIM : 08114723
Page 47 of 53
Perencanaan Struktur Tangga – Graha ISTN
Area
119 119
SAP2000 v12.0.0
Table: Element Stresses - Area Shells, Part 4 of 4 AreaEle Joint OutputC SMaxAvg SAngleAvg m ase Kgf/m2 Degrees 118 161 COMB3 927062.60 -0.411 118 166 COMB3 927286.53 -1.324
Table: Joint Restraint Assignments Table: Joint Restraint Assignments U2 U3 R1
Joint
U1
135 136 137 138 139 165 166 167 168 169
Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes
Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes
Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes
Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes
R2
R3
Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes
Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes
Table: Load Case Definitions, Part 1 of 2 Case
Type
DEAD MODAL Live Load
LinStatic LinModal LinStatic
Table: Load Case Definitions, Part 1 of 2 InitialCond ModalCase BaseCase DesTypeOpt Zero Zero Zero
Prog Det Prog Det Prog Det
DesignType
AutoType
DEAD OTHER LIVE
None None None
Table: Load Case Definitions, Part 2 of 2 Case
RunCase
DEAD MODAL Live Load
Yes No Yes
Table: Load Case Definitions, Part 2 of 2 CaseStatus GUID
Notes
Finished Not Run Finished
Table: Load Pattern Definitions LoadPat
DesignType
Dead Load Live Load
DEAD LIVE
Table: Load Pattern Definitions SelfWtMult AutoLoad GUID
Notes
1.000000 0.000000
Table: Material Properties 03b - Concrete Data, Part 1 of 2 Material 4000Psi
Fc Kgf/m2 2812278.50
Table: Material Properties 03b - Concrete Data, Part 1 of 2 LtWtConc SSCurveOpt SSHysType SFc SCap
G. Ginanjar – NIM : 08114723
No
Mander
Takeda
0.002000
0.005000
FinalSlope -0.100000
FAngle Degrees 0.000
Page 48 of 53
Perencanaan Struktur Tangga – Graha ISTN
SAP2000 v12.0.0
Table: Material Properties 03b - Concrete Data, Part 2 of 2 Table: Material Properties 03b - Concrete Data, Part 2 of 2 Material DAngle Degrees 4000Psi 0.000
Table: Material Properties 03e - Rebar Data, Part 1 of 2 Table: Material Properties 03e - Rebar Data, Part 1 of 2 Material
Fy
A615Gr60
Fu
EffFy
EffFu
Kgf/m2
Kgf/m2
Kgf/m2
Kgf/m2
42184177.5 7
63276266.3 5
46402595.3 3
69603892.9 9
SSCurveO pt
SSHysTyp e
SHard
SCap
Simple
Kinematic
0.010000
0.090000
Table: Material Properties 03e - Rebar Data, Part 2 of 2 Table: Material Properties 03e - Rebar Data, Part 2 of 2 Material FinalSlope UseCTDef A615Gr60
-0.100000
No
Table: Preferences - Concrete Design - ACI 318-05/IBC2003, Part 1 of 2 THDesign
NumCurves
Envelopes
24
Table: Preferences - Concrete Design - ACI 318-05/IBC2003, Part 1 of 2 NumPoints MinEccen PatLLF UFLimit SeisCat
11
Yes
0.750000
0.950000
D
PhiT
PhiCTi ed
0.900000
0.6500 00
Table: Preferences - Concrete Design - ACI 318-05/IBC2003, Part 2 of 2 Table: Preferences - Concrete Design - ACI 318-05/IBC2003, Part 2 of 2 PhiCSpiral PhiV PhiVSeismi PhiVJoint c 0.700000
0.750000
0.600000
0.850000
Table: Project Information Item
Table: Project Information Data
Company Name Client Name Project Name Project Number Model Name Model Description
G. Ginanjar – NIM : 08114723
Bravo corp.
Page 49 of 53
Perencanaan Struktur Tangga – Graha ISTN
Item
SAP2000 v12.0.0
Table: Project Information Data
Revision Number Frame Type Engineer Checker Supervisor Issue Code Design Code
G. Ginanjar – NIM : 08114723
Page 50 of 53
Perencanaan Struktur Tangga – Graha ISTN
SAP2000 v12.0.0
3D Model G. Ginanjar – NIM : 08114723
Page 51 of 53
Perencanaan Struktur Tangga – Graha ISTN
SAP2000 v12.0.0
Live Load Attachment
Deformed Shape G. Ginanjar – NIM : 08114723
Page 52 of 53
Perencanaan Struktur Tangga – Graha ISTN
SAP2000 v12.0.0
Stress Contour
G. Ginanjar – NIM : 08114723
Page 53 of 53
LAMPIRAN 4
TABEL KOEFISIEN UNTUK PERHITUNGAN BETON
LAMPIRAN 5
DATA SOIL TEST
SOIL TEST PERENCANAAN FONDASI GRAHA ISTN
GRAHA ISTN JAKARTA SELATAN
19‐11‐2009
Gedung Graha ISTN Jakarta Selatan 1 Non Jamil
Gedung Graha ISTN Jakarta Selatan S1
Jamil
Gedung Graha ISTN Jakarta Selatan ISTN 1 19‐11‐2009
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