LECTURE 8 - Bond Development Length and Splices
Short Description
Bond Development Length and Splices according to NSCP 2010...
Description
Bond Development Length and Splices Lecture #8 References:
UP – Institute of Civil Engineering
Summary
Keyword 1.
Flexure consideration
2.
Development length
Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts
3.
2a. Tension
412.3
2b. Development length check
412.12.3
2c. Compression
412.4
2d. Bundled
412.5, 407.7.6
2e. Hooks
412.6, 407.2
Shear effect 3a. Shear effect
412.11.3
3b. Shear capacity check
412.11.5
4.
Construction
5.
Other requirements
Lap Splice Summary
6.
NSCP 2010
5a. Support and inflection point (tension, compression)
412.13.1, 412.13.3
5b. Structural integrity*
407.14
Lap Splice 6a. Tension
412.16
6b. Compression
412.17 3
IHST
UP – Institute of Civil Engineering
Bond Stress Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts
One assumption in flexural design: No slippage of the bars in relation to the surrounding concrete If bond doesn't exist, unreinforced concrete If bond do exist, bond stresses should also exist to maintain equilibrium
Lap Splice Summary
4
IHST
UP – Institute of Civil Engineering
Bond Stress Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts
∑𝐹 = 0;
𝜋𝑑𝑏2 𝑓𝑠2 − 𝑓𝑠1 = 𝜇𝑎𝑣𝑔 𝜋𝑑𝑏 𝑙 4 Let 𝑓𝑠2 − 𝑓𝑠1 = 𝛥𝑓𝑠 gives Δ𝑓𝑠 𝑑𝑏 1 𝜇𝑎𝑣𝑔 = 4𝑙
Lap Splice Summary
5
IHST
UP – Institute of Civil Engineering
Mechanism of Bond Transfer
Adhesion and Friction
Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
7
IHST
UP – Institute of Civil Engineering
Mechanism of Bond Transfer Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
If splitting occurs, the yield strength of the bars assumed to be part of equilibrium equations will not be developed 8
IHST
UP – Institute of Civil Engineering
Development Length Lecture #8 Objectives
Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts
Because the actual bond stresses varies along the length of the bar, the ACI Code uses the concept of development length rather than bond stresses The development length, 𝑙𝑑 , is the shortest length of bar in which the bar stress increase from zero to the yield strength 𝑓𝑦
Lap Splice Summary
9
IHST
UP – Institute of Civil Engineering
Development Length Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
𝑙𝑑
not be less than 𝑙𝑑
Region of maximum bar stress
10
IHST
UP – Institute of Civil Engineering
Development Length – ACI 12.1
NSCP 412
Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
11
IHST
UP – Institute of Civil Engineering
Development Length – ACI 12.3
NSCP 412.3.3
Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
𝑓𝑐𝑡
𝑓𝑐𝑡
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts
Properties
Actual
Idealized
Major factors affecting the development length ▪ Bar properties (𝑓𝑦 and 𝑑𝑏 ) ▪ Bar spacing, 𝑐𝑏 (discussion later) ▪ Concrete strength
Lap Splice Summary
ACI 𝒍𝒅 full equation 12
IHST
UP – Institute of Civil Engineering
Development Length – ACI 12.2.4NSCP 412.3.4 Lecture #8 Objectives
1.
Location of Reinforcement (𝜓𝑡 )
2.
Coating of bars(𝜓𝑒 )
Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
13
IHST
UP – Institute of Civil Engineering
Development Length – ACI 12.2.4NSCP 412.3.4 Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks
3.
Sizes of Reinforcing Bars (𝜓𝑠 )
4.
Lightweight Aggregates (𝜆)
Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
14
IHST
UP – Institute of Civil Engineering
Development Length – ACI 12.2.4NSCP 412.3.4 Lecture #8 Objectives
5.
Confinement term
Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
where 𝑐𝑏 = represents the smaller of the distance from the center of the tension bar or wire to the nearest concrete surface, or one half the center-to-center spacing of reinforcement 𝐾𝑡𝑟 = transverse reinforcement index. Used to account for the contribution of confining reinforcement across possible splitting planes 𝐴𝑡𝑟 = the total cross-sectional area of all transverse reinforcement having the center-to-center spacing, 𝑠, and a yield strength, 𝑓𝑦𝑡 . 𝑛 = number of bars or wires being developed along the plane of splitting
15
IHST
UP – Institute of Civil Engineering
𝑨𝐯,𝒎𝒊𝒏 =
𝒇′𝒄
𝒃𝒘 𝒔 𝒃𝒘 𝒔 ≥ 𝟏𝟔𝒇𝒚𝒕 𝟑𝒇𝒚𝒕
Development Length – simplified NSCP 412.3.2 Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Substituting lower limit values of 𝑐𝑏 and 𝐾𝑡𝑟 for common design cases:
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice
Case 1
Case 2
Summary
ACI 𝒍𝒅 full equation
ACI 𝒍𝒅 simplified equations
16
IHST
UP – Institute of Civil Engineering
Development Length – simplified Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
17
IHST
UP – Institute of Civil Engineering
Problem 8.1 Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice
A 400-mm-wide cantilever beam frames into the edge of a 400-mm-thick wall as shown. To reach Mn, the 3-25mm bars at the top of the beam are stressed to their yield strength at point A at the face of the wall. Compute the minimum embedment of the bars into the wall and the development length in the beam. The concrete is sand/low density concrete with a strength of 25 MPa. The yield strength of the flexural reinforcement is 420 MPa. Construction joints are located at the top and bottom of the beam. The beam has closed 10mm stirrups with fyt = 420 MPa at a spacing of 180 mm throughout its length (the stirrups are not shown). The cover is 40-mm to the stirrups. The three No. 25 bars are inside the 13mm vertical steel in each face of the wall.
Cantilever beam
Summary
18
IHST
UP – Institute of Civil Engineering
Problem 8.2 – Group Seatwork Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
The required reinforcing steel area for the lightweight concrete (fc’ = 21MPa) beam in the figure is given below. The 25-mm top bars (fy = 420MPa) shown are uncoated. Use fyt = 270 MPa. Compute the development lengths using a.) simplified equation (assume stirrup is code compliant) b.) the full equation of ACI equation 12-1 with calculated value of Ktr c.) ACI equation 12-1 with Ktr = 0
40
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice
420 4-25 mm
10 mm stirrups spaced at 200 mm
40 40 mm
750 mm 710 mm
Summary
500 mm 19
IHST
UP – Institute of Civil Engineering
Development Length – Bundled bars Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Greater development lengths are needed when bundled bars are used since part of the surface area of one bar will not be in contact with the concrete
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
20
IHST
UP – Institute of Civil Engineering
Problem 8.3 Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Compute the development length required for the uncoated bundled bars shown in the figure. Assume fy = 414 MPa, fc’ = 21 MPa and fyt = 270 MPa.
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts
50
50
10mm stirrup at 200mm 500 mm
Lap Splice Summary
250
3 – 25 mm bars 50 mm 21
IHST
UP – Institute of Civil Engineering
Development Length –
Tension ACI 12.11
Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Moment Capacity 𝜙𝑀𝑛
ACI 𝒍𝒅 full equation Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts
Required Moment 𝑀𝑢 O
𝒍𝒅
𝝓𝑴𝒏 < 𝑴𝒖
Lap Splice Summary
22
IHST
UP – Institute of Civil Engineering
Development Length –
Tension ACI 12.11
Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Moment Capacity 𝜙𝑀𝑛
ACI 𝒍𝒅 full equation Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
Required Moment 𝑀𝑢 O
𝒍𝒅
𝝓𝑴𝒏 < 𝑴𝒖
To maintain 𝜙𝑀𝑛 > 𝑀𝑢 the slope of the momentcapacity diagram (line OB) cannot be less than the slope of the moment-load diagram (line OA)
23
IHST
UP – Institute of Civil Engineering
Development Length –
NSCP 412.12.3
Tension ACI 12.11
Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
24
IHST
UP – Institute of Civil Engineering
Development Length –
NSCP 412.12.3
Tension ACI 12.11
Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
25
IHST
UP – Institute of Civil Engineering
NSCP 412.4
Development Length –
Compression ACI 12.3
Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
𝑙𝑑𝑐 =
0.24𝑓𝑦 𝜆
𝑓𝑐′
≥ 0.043𝑓𝑦 𝑑𝑏
Note: 𝑙𝑑𝑐 is considerably shorter than 𝑙𝑑
26
IHST
UP – Institute of Civil Engineering
Development Length – Lecture #8 Objectives
NSCP 412.4
Compression ACI 12.3
Modification factors for Compression bars
Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
27
IHST
UP – Institute of Civil Engineering
Development Length –
Compression ACI 12.3
Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
28
IHST
UP – Institute of Civil Engineering
Problem 8.4 Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
The forces in the column bars in the figure are to be transferred into the 500-mm thick footing with 32 mm dowels. Determine the development lengths needed for the dowels (a) down into the footing and (b) up into the column fy = 414 MPa and fc’ = 21 MPa (for footing) fc’ = 35 MPa (for column)
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
ld into column ld into footing
29
IHST
UP – Institute of Civil Engineering
Hooks Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
30
IHST
UP – Institute of Civil Engineering
Hooks – Mechanism(FBD) Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
31
IHST
UP – Institute of Civil Engineering
Hooks – Mechanism(Stresses) Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Decrease in axial stress is due to bond and friction
Slip measured is relative to the axial stress (180° has a maximum slip 1.75 times the 90°)
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
Stress diagram and slip measured at points along a hook at a bar stress of 1.25𝑓𝑦 in tests of 90 and 180 degree hooks in No.7 bars
32
IHST
UP – Institute of Civil Engineering
NSCP 412.6
ACI Requirement Lecture #8 Objectives
For standard hooks, the development length is
Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
𝑙𝑑ℎ = 0.24
𝜓𝑒 𝜆𝑓𝑦 𝑓𝑐′
𝑑𝑏 ≥ 8𝑑𝑏 𝑜𝑟 150𝑚𝑚
33
IHST
UP – Institute of Civil Engineering
NSCP 412.6
ACI Requirement - ACI 12.5.3 & …4 Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
34
IHST
UP – Institute of Civil Engineering
ACI Requirement - ACI 12.5.3a & …3b Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
35
IHST
UP – Institute of Civil Engineering
Detailing dimension, 𝑙𝑑ℎ 𝜓𝑒 𝜆𝑓𝑦 𝑙𝑑ℎ = 0.24 𝑑𝑏 ′ 𝑓𝑐 Lecture ≥ 8𝑑#8 𝑏 𝑜𝑟 150𝑚𝑚 Objectives
Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
36
IHST
UP – Institute of Civil Engineering
ACI Standard Hooks (Typical) Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
37
IHST
UP – Institute of Civil Engineering
Problem 8.5 The exterior Lecture #8 end 400x600mm continuous beam frames into a 650-mm square column. The column has 4-36M longitudinal bars. The negative moment reinforcement at the exterior end of the beam consists of 4-25M bars. The concrete is 25 MPa normal weight Objectives concrete. The steel strength is 420 MPa. Design the anchorage of the 4-25M bars into the column. Consider ACI 11.10.2 as well Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
38
IHST
UP – Institute of Civil Engineering
Problem 8.6 Seatwork (Group) Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks
Determine the development or embedment length required for the epoxy-coated bars of the beam shown in the figure. fy = 414 MPa, fc’ = 28 MPa (a) if the bars are straight, assuming Ktr = 0 (b) if a 180-degree hook is used and (c) if a 90-degree hook is used. Assume 10M stirrups, db = 25M, concrete cover of 50mm 50
250
50 65 mm 115 mm
Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts
325 mm
Lap Splice Summary
39
IHST
UP – Institute of Civil Engineering
Bar Cut-off Recall: Location of Reinforcement Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
40
IHST
UP – Institute of Civil Engineering
Bar Cut-off Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts
Four major factors affecting location of bar cut-offs: 1. When they are no longer needed 2. Development lengths 3. Location of moderately high shear force 4. Constructional requirements 5. Other requirements
Lap Splice Summary
42
IHST
UP – Institute of Civil Engineering
1
Problem 8.7 Illustration Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Given the following parameters, f'c = 28 MPa, fy = 420 MPa with 100 kN/m load on a 6m (b = 400mm, d = 550mm) beam, the resulting design is 5-25M bars (design strength, 𝜙𝑀𝑛 is 465 kN/m).
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
43
IHST
UP – Institute of Civil Engineering
1
Bar Cut-off (Illustration) Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
44
IHST
UP – Institute of Civil Engineering
1
Problem 8.10 Flexure Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks
The beam shown is constructed of normal-weight, 21-MPa concrete and Grade-60 reinforcement. It supports the factored load as shown. Given the cross sections at the points of maximum positive and negative moment, determine the bar cut-off locations of 2-25M bars considering flexural capacities only.
Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts
1.2𝑤𝐷 = 6𝑘𝑁/𝑚 & 1.6𝑤𝐿 = 49𝑘𝑁/𝑚
Lap Splice Summary
𝟐 − 𝟑𝟎𝑴 section 𝜙𝑀𝑛 = 253 𝑘𝑁𝑚 𝟐 − 𝟐𝟓𝑴 and 𝟐 − 𝟑𝟎𝑴 section 𝜙𝑀𝑛 = 308 𝐾𝑁𝑚 47
IHST
UP – Institute of Civil Engineering
2
Problem 8.10 Dev’t Length Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts
The beam shown is constructed of normal-weight, 21-MPa concrete and Grade-60 reinforcement. It supports the factored load as shown. Given the cross sections at the points of maximum positive and negative moment, determine the bar cut-off locations considering development lengths only. 1.2𝑤𝐷 = 6𝑘𝑁/𝑚 & 1.6𝑤𝐿 = 49𝑘𝑁/𝑚
Lap Splice Summary
48
IHST
UP – Institute of Civil Engineering
3
Bar Cut-off Shear Effects Lecture #8 of Shear Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4.The Construction Req'tsbe bars should 5. Other Req'ts
anchored into the support Lap Splicefor at least 0.5𝑉𝑢, and Summary preferably 0.75𝑉𝑢. a.
Inclined cracking (shear force) increases the tension force in the flexural reinforcement 49
IHST
UP – Institute of Civil Engineering
Bar Cut-off Shear b. Lecture Stress #8
concentration ▪ Due to reduction of bars (𝐴𝑠 ↓), Bond Stress stresses in bars increases which can Dev’t Length Tension lead to major inclined cracks at the Bundled bar cut-off. (see Figure e) Compression 𝑀𝑢′ 𝑓𝑠 = Hooks 𝜙𝐴𝑠 𝑗𝑑 Objectives
Cut-Off 12.10.3 1. Flexure – Reinforcement shall extend 2. Dev’t length beyond the point at which it is no longer 3. Shear Effects required toReq'ts resist flexure for a distance 4. Construction 5. Other to Req'ts equal d or 12db whichever is greater,
except Lap Spliceat supports of simple spans and at free end of cantilevers Summary
In addition to shear effect, ACI 12.10.3 also accounts for the maximum moment shifts due to changes in loading and support settlement 50
IHST
UP – Institute of Civil Engineering
3
Bar Cut-off Shear c. Lecture Shear #8
strength reduction and loss of ductility ▪ Due to reduced reinforcement, flexure cracks tend to open early whenever any Bond Stress rebar is terminated in a tension zone. Objectives
Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice
As a result of the difficulties in satisfying these sections, designers frequently will extend all bars into the supports in simple beams or past points of inflection in continuous beams.
Summary
51
IHST
UP – Institute of Civil Engineering
3
Problem 8.10 Shear Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks
The beam shown is constructed of normal-weight, 21-MPa concrete and Grade-60 reinforcement. It supports the factored load as shown. Given the cross sections at the points of maximum positive and negative moment, determine the bar cut-off locations considering shear effects only.
Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts
1.2𝑤𝐷 = 6𝑘𝑁/𝑚 & 1.6𝑤𝐿 = 49𝑘𝑁/𝑚
Lap Splice Summary
𝟐 − 𝟑𝟎𝑴 section 𝜙𝑀𝑛 = 253 𝑘𝑁𝑚 𝟐 − 𝟐𝟓𝑴 and 𝟐 − 𝟑𝟎𝑴 section 𝜙𝑀𝑛 = 308 𝐾𝑁𝑚 52
IHST
UP – Institute of Civil Engineering
5
Bar Cut-off Code Requirements Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
Extension of tension bars Positive moment: at least 1/3 (simple) or 1/4 (continuous) the reinforcement shall be extended at least 150mm. Negative moment: (beyond pt. of inflection) at least 1/3 shall be extended either 𝑑, 12𝑑𝑏 or 𝑙𝑛 /16 (whichever is greater) 53
IHST
UP – Institute of Civil Engineering
5
Bar Cut-off Code Requirements Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
54
IHST
UP – Institute of Civil Engineering
Summary (ACI) 1. When they are no longer needed Lecture #8 Locate flexural cut-off points Objectives 2. Development lengths Bond Stress Apply development lengths past Dev’t Length Tension the points of maximum stress Bundled a. Compression
b.
Hooks
3.
Cut-Off a. 12.10.3 1. Flexure b. 12.10.5 2. Dev’t length 3. Shear Effects zone 4. Construction Req'ts 5.4. Other Req'ts
b.
6.
Flexure consideration
2.
Development length
12.11.1 or 12.12.3 Extension into the supports 7.13.2.2 Structural integrity
Lap splice
3.
Shear effect Termination at tension
Constructional requirements 5. Other requirements Lap Splice a.
1.
12.2 to 12.5 𝑙𝑑 formula 12.11.3 Tension bars: 𝑀𝑛 /𝑉𝑢
Shear effects
Summary
Keyword
2a.
Tension
12.2
2b.
Development length check
12.11.3
2c.
Compression
12.3
2d.
Bundled
12.4
2e.
Hooks
12.5
Shear effect 3a.
Shear effect
12.10.3
3b.
Shear capacity check
12.10.5
4.
Construction
5.
Other requirements
6.
ACI 318M (2011)
5a.
Support and inflection point (tension, compression)
12.11.1, 12.12.3
5b.
Structural integrity*
7.13.2.2
Lap Splice 6a.
Tension
12.15
6b.
Compression
12.16
55
IHST
UP – Institute of Civil Engineering
Summary (NSCP) 1. When they are no longer needed Lecture #8 Locate flexural cut-off points Objectives 2. Development lengths Bond Stress Apply development lengths past Dev’t Length Tension the points of maximum stress Bundled a. Compression
b.
Hooks
3.
Cut-Off a. 412.11.3 1. Flexure b. 412.11.5 2. Dev’t length 3. Shear Effects zone 4. Construction Req'ts 5.4. Other Req'ts
b.
6.
Flexure consideration
2.
Development length
3.
Shear effect Termination at tension
Constructional requirements 5. Other requirements Lap Splice a.
1.
412.3 to 412.6 𝑙𝑑 formula 412.12.3 Tension bars: 𝑀𝑛 /𝑉𝑢
Shear effects
Summary
Keyword
412.12.1 or 412.12.3 Extension into the supports 407.14 Structural integrity
Lap splice
2a.
Tension
412.3
2b.
Development length check
412.12.3
2c.
Compression
412.4
2d.
Bundled
412.5, 407.7.6
2e.
Hooks
412.6, 407.2
Shear effect 3a.
Shear effect
412.11.3
3b.
Shear capacity check
412.11.5
4.
Construction
5.
Other requirements
6.
NSCP 2010
5a.
Support and inflection point (tension, compression)
412.12.1, 412.12.3
5b.
Structural integrity*
407.14
Lap Splice 6a.
Tension
412.16
6b.
Compression
412.17
56
IHST
UP – Institute of Civil Engineering
Splices Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
Lapped splices, mechanical splices, welded splices, and end-bearing splices
Considerations Limited bar lengths available and requirements at construction joints (6 m, 7.5 m, 9 m, 10.5 m, 12 m) Reinforcement congestion Laps will not be satisfactory for very long lengths (for 29 mm to 36 mm bars) 57
IHST
UP – Institute of Civil Engineering
Splices Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
Dywidag THREADBAR® reinforcing bar 58
IHST
UP – Institute of Civil Engineering
Tension Lap Splice Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
59
IHST
UP – Institute of Civil Engineering
Tension Lap Splice Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
Failure of a tension Lap Splice without stirrups enclosing the splice
60
IHST
UP – Institute of Civil Engineering
Tension Lap Splice Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
61
IHST
UP – Institute of Civil Engineering
Compression Splices Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks
Compression bars may be spliced by: ▪ Lapping ▪ End Bearing ▪ Welding or Mechanical Devices
Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
62
IHST
UP – Institute of Civil Engineering
Problem 8.10 Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks
ALL
The beam shown is constructed of normal-weight, 21-MPa concrete and Grade-60 reinforcement. It supports the factored load as shown. Given the cross sections at the points of maximum positive and negative moment, determine the bar cut-off locations. Consider bar lengths to be 7.5m only. Use Class A splice.
Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts
1.2𝑤𝐷 = 6𝑘𝑁/𝑚 & 1.6𝑤𝐿 = 49𝑘𝑁/𝑚
Lap Splice Summary
𝟐 − 𝟑𝟎𝑴 section 𝜙𝑀𝑛 = 253 𝑘𝑁𝑚 𝟐 − 𝟐𝟓𝑴 and 𝟐 − 𝟑𝟎𝑴 section 𝜙𝑀𝑛 = 308 𝐾𝑁𝑚 63
IHST
UP – Institute of Civil Engineering
Problem 8.10 Lecture #8 Objectives
Lap splice locations
Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
64
IHST
UP – Institute of Civil (ACI Engineering Standard Bar Details 7.13)
Standard Bar Details (ACI 7.13) Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
65
IHST
UP – Institute of Civil Engineering
Standard Bar Details (ACI 7.13) Lecture #8 Objectives Bond Stress Dev’t Length Tension Bundled Compression
Hooks Cut-Off 1. Flexure 2. Dev’t length 3. Shear Effects 4. Construction Req'ts 5. Other Req'ts Lap Splice Summary
66
IHST
View more...
Comments
