Material standards and committees or the international oil & gas industry Report No. 421 June 2009 2009
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ublications
Global experience Te International Association o Oil & Gas Producers has access to a wealth o technical knowledge and experience with its members operating around the world in many dierent terrains. We collate and distil this valuable knowledge or the industry to use as guidelines or good practice by individual members.
Consistent high quality database and guidelines Our overall aim is to ensure a consistent approach to training, management and best practice throughout the world. world. Te oil & gas exploration and production production industry recognises recogni ses the need to develop consistent databases and records in certain elds. Te OGP’s members are encouraged to use the guidelines guideli nes as a starting sta rting point or their operations or to supplement supplement their own policies and a nd regulations which may apply locally.
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Disclaimer Whilst eery eort has been made to ensure the accuracy o the inormation contained in this publication, neither the OGP nor any o its members past present or uture warrants its accuracy or will, regardless o its or their negligence, assume liability or any oresee able or unoreseeable use made thereo, which liability is hereby excluded . Consequently, such use is at the recipient’s own risk on the basis that any use by the recipient constitutes agreement to the terms o this disclaime r. Te recipient is obliged to inorm any subsequent recipient o such terms. Tis document may provide guidance supplemental to the requirements o local legislation. Nothing herein, howeer, is intended to replace, amend, supersede or otherwise depart om such requirements. In the eent o any confict or contradiction between the provisions o this document docume nt and local legislation, legislation , applicable laws shall preail. Copyright notice Te contents o these pages are © Te International Association o Oil & Gas Producers. Permission is gien to reproduce this report in whole or in part provided (i) that the copyright o OGP and (ii) the source are acknowledged. All other rights are resered. Any other use requires the prior written permission o the OGP. Tese erms and Conditions shall be governed by and construed in accordance with the laws o England and Wales. Disputes arising here om shall be exclusiely subject to the jurisdiction jurisdicti on o the courts o England and Wales. Wales.
Material standards and committees or the international oil & gas industry Report No: 421 June 2009 2009
Acknowledgements
Tis report has ha s was compiled by the OGP Materials Materia ls Sub-committee and approved by the OGP Standards Committee.
Abbreviations API
American Petroleum Institute
ASTM
American Society or esting and Materials Material s
AWS
American Welding Society
BNIF
Bureau de Normalisation des Industries de la Fonderie
BS
British Standard
CD
Committee Dra
CEN
European Committee or Standardization
DIN
Deutsches Institut ür Normung
DIS
Dra International Standard
DNV
Det Norske Veritas
EEMUA
Engineering Equipment & Materials Users’ Association
EFC
European Federation o Corrosion
EN
European Norm
GOST
Russian Standards Organisation
GSO
Gul Standards Organization
IEC
International Electrotechnical Commission
ISO
International Organization or Standardization
MERL
Materials Engineering Research Laboratory
MSS
Manuacturers Standardization Society
NACE
National Association o Corrosion Engineers
NORSOK
Norwegian Competitive Position Position
NP
New Project
OGP
International Association o Oil & Gas G as Producers
PGNI
Petroleum Petroleum and Natural Gas G as Industries
SAC
Standards Administration o China
SC
Subcommittee
SFS
Finnish Standards Association
SSPC
Society or Protective Coatings
TC
echnical Committee
TWI TW I
Te Welding Institute
WD
Working Working Dra
WG
Working Working Group
International oil & gas standards available and active material standards committees
able o contents Abbreviations
iv
1 – Introduction
1
2 – Purpose o report
1
3 – Available standards
2
3. General ........................ ..................................... .......................... .......................... ......................... ......................... .......................... .......................... .......................... ......................... ......................... .......................... .......................... .......................... .................... ....... 3. Materials oil & gas industry specic standards available and used........................... used....................................... ......................... .......................... .......................... .......................... ................ ... 3.3 Non specic materials standards available and used by the oil oil & gas industry .......................... ....................................... .......................... ......................... .................... ........ 3. OGP Catalogue o standards ........................ ..................................... .......................... .......................... ......................... ......................... .......................... .......................... ......................... ......................... .......................... ....................... .......... 4 – ISO/TC 67 “materials” related standards committees
. . .3 . .5 .6 .7 .8 . . . . .3 .
12
General ............................ ......................................... .......................... .......................... .......................... .......................... ......................... ......................... .......................... .......................... .......................... ......................... ......................... .......................... ............... ISO/C 67 67/WG 5 Aluminium alloy a lloy pipes ........................ ..................................... .......................... .......................... ......................... ......................... .......................... .......................... ......................... .................. ...... ISO/C 67/WG7 67/WG7 Materials or use in HS containing environments in oil & gas production ................ ............................. ....................... .......... ISO/C 67/WG8 67/WG8 Materials, corrosion, welding welding and joining and ndt ndt ......................... ...................................... ......................... ......................... .......................... .....................3 ........3 ISO/C 67/SC/WG 67/SC/WG 8 Welding Welding o pipelines ...................... ................................... .......................... .......................... ......................... ......................... .......................... .......................... .......................... ............... ISO/C 67 67/SC/WG Induction bends, bends, anges, anges , ttings .......................... ....................................... ......................... ......................... .......................... .......................... ......................... ............ ISO/C 67 67/SC/WG /SC/WG Cathodic Protection o land & oshore oshore pipelines ........................ ..................................... .......................... .......................... ....................... .......... ISO/C 67 67/SC WG WG External pipeline protective protective coatings .......................... ....................................... .......................... ......................... ......................... .......................... ................... ...... ISO/C 67/SC/WG 67/SC/WG66 Line pipe – ISO 383 revision ......................... ...................................... .......................... ......................... ......................... .......................... .......................... ................... ...... ISO/C 67/SC/WG3 67/SC/WG3 Wellhead and Christmas tree equipment .......................... ....................................... .......................... .......................... ......................... ......................... ............. ISO/C 67/SC/WG6 67/SC/WG6 Subsea equipment......................... ...................................... .......................... .......................... .......................... ......................... ......................... .......................... .......................... ................. .... 5 ISO/C 67/SC5 67/SC5 Casing, tubing and a nd drill dri ll pipe ....................... ................................... ......................... .......................... .......................... .......................... .......................... ......................... ......................... .............5 5 ISO/C 67/SC6/WG5 67/SC6/WG5 Piping systems............................ systems......................................... .......................... .......................... ......................... ......................... .......................... .......................... ......................... ..................... .........6 6 ISO/C 67/SC7 Oshore O shore structures s tructures ................................. .............................................. .......................... .......................... .......................... ......................... ......................... .......................... .......................... ................... ......6 6
5 – Other ISO material relevant committees
17
5. ISO/C 7 Steel ...................... ................................... .......................... ......................... ......................... .......................... .......................... .......................... ......................... ......................... .......................... .......................... .......................... ................ ... 7 5. ISO/C35 ISO/C35 Paints and varnishes ...................... .................................. ......................... .......................... .......................... .......................... ......................... ......................... .......................... .......................... ......................... ................ 8 5.3 ISO/C Welding Welding and allied processes ......................... ...................................... ......................... ......................... .......................... .......................... .......................... ......................... ......................... ..................... ........ 5. ISO/C56 ISO/C56 Corrosion Corrosion o metals and a lloys......................... ...................................... .......................... ......................... ......................... .......................... .......................... .......................... ......................... ................ .... 6 – API standards committees 20 7 – ASTM standards committees
21
8 – AWS standards committees
21
9 – CEN Materials related committees
22
. . .3
CEN/C CEN/C ...................... ................................... .......................... .......................... .......................... ......................... ......................... .......................... .......................... .......................... .......................... ......................... ......................... ......................... ............ CEN/C cathodic protection ........................ ..................................... .......................... ......................... ......................... .......................... .......................... .......................... ......................... ......................... ..................... ........ CEN/C3 Gas inrastructure inrastructu re......................... ...................................... ......................... ......................... .......................... .......................... .......................... ......................... ......................... .......................... ....................... ..........
10 – ECISS
23
11 – EFC standard stan dardss work
25
12 – EEMUA Materials technology committee (MTC)
26
. General introduction to EEMUA ............... ............................ .......................... .......................... .......................... .......................... ......................... ......................... .......................... ......................... ......................... ...................6 ......6 . Relevant EEMUA E EMUA Publications Publ ications ......................... ...................................... ......................... ......................... .......................... .......................... .......................... .......................... ......................... ......................... .........................6 ............6 13 – NACE standards committees 27 14 – NORSOK standards committee – Standards Norway 29 15 – OGP Materials Subcommittee
30
16 – TWI standards activities
31
17 – Company specication
32
18 – Observations and comments
32
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International Association o Oil & Gas Producers
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© OGP
International oil & gas standards available and active material standards committees
– Introduction Te International Association o Oil & Gas Producers (OGP) (OGP) organised a workshop meeting 7 – 8 February Februar y 7, in London, or the materials specialists specia lists o OGP members with the objecobjective o: . Arranging a global networking o the materials technology specialists o OGP members or the purpose o discussing d iscussing the existing company and project specications and available standards related to this discipline. . Evaluating the need or uture materials standards work in the upstream oil & gas industry, or example in the ISO/C I SO/C 67 67 area. 3. Establishing a new work proposal(s) proposal(s) or development development o a new international standard on Materials Selection or other subjects as agreed. Basis or the work should be NORSOK standard M– M– ,, Materials Selection (http://www.standard.no/en/sectors/Petroleum/NORSOK-Standard-Categories/M–Material/M–0012), any company specications oered and other relevant standards or documents. . Determining urther networking arrangements, i agreed. OGP agreed subsequently to establish a Materials Materia ls Sub-committee on the basis o this t his workshop. See chapter 5. OGP’s position paper on development development and use o standards is i s ound in OGP Report № 38 at http://www.ogp.org.uk/pubs.
– Purpose o report Te purpose o this report is twoold: . to provide a list o the available and relevant international, regional, national and industry standards or the oil & gas industries specically ocusing on materials related subjects as seen by the OGP members involved; involved; and . to provide an overview o relevant technical committees and working groups and material standards work presently ongoing or this area.
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International Association o Oil & Gas Producers
3 – Available standards 3.1 General
Te primary and specic material standards or the oil & gas industry are singled out in paragraph 3. below, as these standards are the responsibility o the materials experts o the oil & gas industry community to develop and maintain, and normally nobody else. Many o the reerences in 3.3 below are generally applicable material standards where the materials discipline has input and many o them are not specically made or the oil & gas industry. However, However, they are requently requently used by the materials discipline and hence listed to recognise these and to check i they are commonly reerenced by the global oil & gas industry or their individual and specic purposes. Tese lists will hardly ever be accurate or complete as there may be several other standards available and thereore comments comments are welcome. See chapter 8. 3.2 Materials oil & gas industry industry specic standards available available and used API 2B API 2H API 2MT1 API 2MT2 API 2W API 2X API 2Y API 2Z API 5CT API 5 L API 15 HR API 15 LR API 17J ASTM A 694 ASTM A 703 ASTM A 707 ASTM A 923 AWS A5.xx DNV OS C501 DNV OS F101 DNV RP B201 DNV RP B401 DNV RP D404 DNV RP F103 DNV RP O501 EEMUA 144 EEMUA 145 EEMUA 146 EEMUA 149 EEMUA 158 EEMUA 176 EEMUA 179 EEMUA 192
Fabricated structural steel pipe Carbon Manganese Steel Plate or Oshore Structures Carbon Manganese Steel Plate with Improved Toughness or Oshore Structures Rolled Shapes with Improved Notch Toughness Steel Plates or Oshore Structures, Produced by Thermo-Mechanical Control Processing (TMCP) Ultrasonic examination o oshore structural abrications. Steel Plates, Quenched-and-tempered, or Oshore Structures Preproduction Qualication or Steel Plates or Oshore Structures See also ISO 11960 PGNI – Steel pipes or use as casing or tubing or wells See also ISO 3183 PGNI – Steel pipe or pipeline transportation systems High Pressure Fiberglass Line Pipe Low Pressure Fiberglass Line Pipe Unbonded Flexible Pipe Standard Specication or Carbon and Alloy Steel Forgings or Pipe Flanges, Fittings, Valves, and Parts or High-Pressure Transmission Service Steel Castings, General Requirements, or Pressure-Containing Parts Standard Specication or Forged Carbon and Alloy Steel Flanges or Low – Temperature Service Standard Test Methods or Detecting Detrimental Intermetallic Phase in Duplex Austenitic/ Ferritic Stainless Steels Specication or Welding Electrodes & Rods (multiple standards) Composite components. Submarine Pipeline Systems Metallic Materials in Drilling, Production and Process Systems Cathodic Protection Design Unstable racture. Cathodic Protection o Submarine Pipelines by Galvanic Anodes Erosive wear in piping systems. 90/10 Copper Nickel Alloy Piping or Oshore Applications – Specication: Tubes Seamless and Welded 90/10 Copper Nickel Alloy Piping or Oshore Applications – Specication: Flanges Composite and Solid 90/10 Copper Nickel Alloy Piping or Oshore Applications – Specication: Fittings Code o Practice or the Identication and Checking o Materials o Construction in Pressure Systems in Process Plants Construction Specication or Fixed Oshore Structures in the North Sea Specication or Structural Castings or Use Oshore A Working Guide or Carbon Steel Equipment in Wet H 2S Service Guide or the Procurement o Valves or Low Temperature (Non-cryogenic) Service
© OGP
International oil & gas standards available and active material standards committees
EEMUA 194 EEMUA 197 EEMUA 203 EEMUA 204 EN 10225 EFC 16 EFC 17 EFC 23 EFC 42 EFC 39 ISO 11960 ISO 13680 ISO 14692–1 ISO 14692–2 ISO 14692–3 ISO 14692–4 ISO 15156–1 ISO 15156–2 ISO 15156–3 ISO 15546 ISO 15589–1 ISO 15589–2 ISO 21809–2 275ISO 21809–3 ISO 23936–1 ISO 3183 MSS SP–44 MSS SP–55 MSS SP–75 NACE MR 0175 NACE RP 0169 NACE RP 0170 NACE RP 0175 NACE RP 0176 NACE RP 0192 NACE RP 0194 NACE RP 0675 NACE RP 0775 NACE TM 0169 NACE TM 0177
Guidelines or Materials Selection and Corrosion Control or Subsea Oil & gas Production Equipment Specication or the Fabrication o Non-Primary Structural Steelwork or Oshore Installations Guide to the Application o ISO 3183 Parts 2 (1996) and 3 (1999) Petroleum and Natural Gas Industries – Steel Pipes or Pipelines – Technical Delivery Conditions Piping and the European Pressure Equipment Directive: Guidance or Plant Owners/Operators Weldable structural steels or xed oshore structures Guidelines on Material Requirements or Carbon and Low Alloy Steels or H 2S Environments in Oil & Gas Production. Corrosion Resistant Alloys or Oil & Gas Production. Guidance on General Requirements and Test Methods or H 2S Service CO2 Corrosion Control in Oil & Gas Production – Design Considerations Corrosion in reneries The use o Corrosion Inhibitors in Oil & Gas Production PGNI – Steel pipes or use as casing or tubing or wells PGNI – Corrosion-resistant alloy seamless tubes or use as casing, tubing and coupling stock – Technical delivery conditions PGNI – Glass reinorced plastics (GRP) piping – Vocabulary, symbols, applications and materials. PGNI – Glass reinorced plastics (GRP) piping – Qualication and manuacture. PGNI – Glass reinorced plastics (GRP) piping – System design. PGNI – Glass reinorced plastics (GRP) piping – Fabrication, installation and operation. PNGI – Materials or use in H 2S-containing environments in oil & gas production – General principles or selection o cracking-resistant materials PNGI – Materials or use in H 2S-containing environments in oil & gas production – Crackingresistant carbon and low alloy steels, and the use o cast irons PNGI – Materials or use in H 2S-containing environments in oil & gas production – Crackingresistant CRAs (corrosion resistant alloys) and other alloys PGNI – Aluminium alloy drill pipe PGNI – Cathodic protection o pipeline transportation systems – On-land pipelines PGNI – Cathodic protection o pipeline transportation systems – Oshore pipelines PNGI – External coatings or buried or submerged pipelines used in pipeline transportation systems — Part 2: Fusion-bonded epoxy coatings PNGI – External coatings or buried or submerged pipelines used in pipeline transportation systems — Part 3: Field joint coatings PNGI — Non-metallic materials in contact with media related to oil & gas production — Part 1: Thermoplastics PGNI – Steel pipe or pipeline transportation systems Steel Pipeline Flanges Visual Inspection Guide For Steel Castings Specication or High Test Wrought Butt Welding Fittings Standard Material Requirements, Metals or Sulde Stress Cracking and Stress Corrosion Cracking Resistance in Sour Oileld Environments Recommended Practice. Control o External Corrosion o Underground or Submerged Metallic Piping Systems. Protection o Austenitic Stainless Steel in Reneries against Stress Corrosion, Cracking by use o Naturalizing Solutions during shutdown Control o Internal Corrosion in Steel Pipelines and Piping Systems Standard Recommended Practice, Corrosion Control o Steel Fixed Oshore Structures Associated with Petroleum Production Monitoring Corrosion in oil & gas production with iron counts Field monitoring o bacterial growth in oil eld system Control o external corrosion on oshore steel pipelines Preparation and installation o corrosion coupons and interpretation o test data in oil eld operation Control o external corrosion on underground or sub merged metallic piping systems Testing o Metals or Resistance to Sulphide Stress Cracking at Ambient Temperatures
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NACE TM 0284 NACE TM 0497 NORSOK M–001 NORSOK M –101 –101 NORSOK M–102 NORSOK M –120 –120 NORSOK M–121 M–121 NORSOK M –122 –122 NORSOK M –123 –123 NORSOK M–501 NORSOK M–503 NORSOK M–506 NORSOK M–601 NORSOK M–622 NORSOK M–630 NORSOK M–650 NORSOK M–710
Testing o Metals or Resistance to Stepwise Cracking Measurement technique related to criteria or cathodic protection on underground or submerged piping system Material selection Structural steel abrication Structural aluminium abrication Material data sheets or structural steel Aluminium structural materials Cast structural steel Forged structural steel Surace preparation and protective coating Cathodic protection CO2 Corrosion rate calculation model Welding and inspection o piping Fabrication and installation o GRP piping systems (drat standard) Material data sheets or piping Qualication o manuacturers o special materials Qualication o non-metallic sealing materials and manuacturers
3.3 Non specic materials standards available and used by by the oil & gas industry Specication or Wellhead and Christmas Tree Equipment – See also ISO 10423 Specication or Pipeline Valves – See also ISO 14313 14313 Sizing, Selection, and Installation O Pressure-Relieving Devices in Reneries, Part I and II. Welding o Pipelines and Related Facilities Design, Construction, Operation and Maintenance o Oshore Hydrocarbon Pipelines (Limit State Design) ANSI/ASME B 16.49 Factory-Made, Wrought Steel, Buttwelding Induction Bends or Transportation and Distribution Systems ANSI/ASME B 31.3 Process Piping ASME Section II Materials Part C – Specications or Welding Rods, Electrodes and Filler Metals. ASME Section V Nondestructive Examination ASME Section VIII Rules or Construction o Pressure Vessels Division 1 ASME Section IX Welding and Brazing Qualications ASTM A 153 Standard Specication or Zinc Coating (Hot Dip) on Iron and Steel Hardware ASTM A 193 Specication or Alloy – Steel and Stainless Steel Bolting Materials or High – Temperature Service ASTM A 194 Specication or Carbon and Alloy Steel Nuts or Bolts or High – Pressure and High-Temperature Service ASTM A 320 Specication or Alloy Steel Bolting Materials or Low – Temperature Service ASTM A 388 Standard Practice For Ultrasonic Examination O Heavy Steel Forgings ASTM A 609 Standard Practice For Castings, Carbon, Low-Alloy And Martensitic Stainless Steel, Ultrasonic Examination Thereo ASTM A 991 Standard test method or conducting temperature uniormity surveys o urnaces used to heat treat steel products ASTM D 1414 Methods o Testing Rubber O-rings ASTM D 1415 Standard Test Method or Rubber property – International hardness (IRHD). ASTM D 1525 Test Method or Vicat Sotening Point or Plastics ASTM D 2240 Test Method or Rubber Property – Durometer Hardness (Shore A/ D). ASTM D 2990 Test methods or Tensile, Compressive and Flexural Creep and Creep. Rupture Test o Plastics. ASTM D 2992 Practice or Obtaining Hydrostatic or Pressure Design Basis or Fibreglass Pipe and Fittings ASTM D 3032 Method o testing hook-up wire insulation. Description o Arrhenius method ASTM D 395 Standard Test Method or Rubber Property – Compression Set (method B). ASTM D 638 Test Method or Tensile Properties o Plastics API 6A API 6D API 520 API 1104 API 1111
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International oil & gas standards available and active material standards committees
ASTM D 695 ASTM D 746 ASTM D 790 ASTM D 792 ASTM D 1141 ASTM D 1599 ASTM D 4752 ASTM E 112 ASTM E 125 ASTM E 165 ASTM E 186 ASTM E 280 ASTM E 446 ASTM E 562 ASTM E 709 ASTM G 48 AWS D1.1 BNIF TR 341–02 BS 1806 BS 4994 BS 6442 BS 7448 BS 7910 BS MA 18 DIN 16965–2 DIN 16966
DIN 53453 DIN 8566–2 DNV CN 33.1 DNV RP F201 EN 473 EN 10002–1 EN 1011–series EN 10204 EN 10225 EN 1043–1 EN 1289 EN 1290 EN 1291 EN 1418 EN 1435 EN 1597–1
Test Method or Compressive Properties o Rigid Plastics Test Method or Brittleness Temperature o Plastics and Elastomers by Impact Test method or Flexural Properties o Un-reinorced and Reinorced Plastics and Electrical Insulating Materials Test Methods or Specic Gravity and Density o Plastics by Displacement Specication or Substitute Ocean Water Standard Test Method or Resistance to Short-Time Hydraulic Failure Pressure o Plastic Pipe Tubing, and Fittings Standard Test Method or Measuring MEK Resistance o Ethyl Silicate (Inorganic) Zinc-Rich Primers by Solvent Rub. Standard Test Method or Determining Average Grain Size Standard Reerence Photographs For Magnetic Particle Indications On Ferrous Castings Standard Test Method For Liquid Penetrant Examination. Reerence Radiographs For Heavy-Walled (51 to 112 mm) Steel Castings Reerence Radiographs For Heavy-Walled (112 to 305 mm) Steel Castings Reerence Radiographs For Steel Castings Up To 51 mm In Thickness Practice or Determining Volume Fraction by Systematic Manual Point Count. Standard Practice For Magnetic Particle Examination Standard Test Method or Pitting and Crevice Corrosion Resistance o Stainless Steel and Related Alloys by the use o Ferric Chloride Solution Structural Welding Code – Steel Characterisation o Surace Condition o Steel Castings Standard Inch Sizes o O-rings. Specication or design and construction o vessels and tanks in reinorced plastics Specication or limits o surace imperections on elastomeric toroidal sealing rings (O-rings). Fracture mechanics toughness tests Guide on methods or assessing the acceptability o faws in usion welded structures. Salt Water Piping in Ships Wound glass bre reinorced polyester resin (UP-GF) pipes, Type B pipes, dimensions Glass bre reinorced polyester resin (UP-GF) pipe ttings and joint – Part 1: Assemblies; ttings; general quality requirements and testing Part 2: Elbows, Dimensions Part 4: Tees, Nozzles, Dimensions Part 5: Reducers; Dimensions. Part 6: Collars, fanges, joint rings; Dimensions. Part 7: Bushings, fanges, fanged and butt joints; general quality requirements and test methods. Part 8: Laminated joints; Dimensions Testing o Plastics, Impact Flexural Test. Zusätze ür das termische Spritzen; Massivdrähte zum Lichtbogenspritzen; Technische Lieerbedingungen. Corrosion prevention o tanks and holds Dynamic risers Nordtest Qualication o NDE operators Metallic materials – Tensile testing – Part 1: Method o test at ambient temperature Welding – Recommendation or welding o metallic materials, relevant parts Metallic products – Types o inspection documents including Weldable structural steels or xed oshore structures – Technical delivery conditions Destructive tests on welds in metallic materials – Hardness testing – Part 1: Hardness test on arc welded joints. Non destructive examination o welds – Penetrant testing o welds – Acceptance levels. NDT o welds – Magnetic particle examination o welds – NDT o welds – Magnetic particle examination o welds – Acceptance levels Welding personnel – Approval testing o welding operators or usion welding and resistance weld setters or ully mechanised and automatic welding o metallic materials Non destructive examination o welds – Radiographic examination o welded joints Welding consumables – Test methods – Part 1: Test piece or all weld metal test specimens in steel, nickel and nickel alloys.
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EN 1714 EN 26847 EN 287 EN 288 EN 444 EN 462 EN 473 EN 719 EN 729 EN 875 EN 970 ISO 148–1 ISO 148–2 ISO 148–3 ISO 377 ISO 404 ISO 630 ISO 642 ISO 643 ISO 657–1 ISO 657–14 ISO 657–15 ISO 683–1 ISO 683–18 ISO 783 ISO 857–1 ISO 868 ISO 898 ISO 1432 ISO 1461 ISO 1817 1817 ISO 2503 ISO 2553 ISO 2566–1 ISO 2566–2 ISO 2604–1 ISO 2604–3 ISO 2604–5 ISO 2632 ISO 2814 ISO 3506–1 ISO 3506–2
6
Non destructive examination o welds – Ultrasonic examination o welded joints Covered electrodes or manual metal arc welding. Deposition o a weld pad or chemical analysis Approval testing o welders – Fusion welding Specication and approval o welding procedures or metallic materials NDT – General principles or radiographic examination o metallic materials by X-rays and gamma rays NDT – Image quality o radiographs Qualication and certication o NDT personnel – General principles Welding coordination – Tasks and responsibilities. Quality requirements or welding – Fusion welding o metallic materials. Welding – Welded joints in metallic materials – Specimen location and notch orientation or impact tests. Non-destructive examination o usion welds – Visual examination. Metallic materials – Charpy pendulum impact test – Part 1: Test method Metallic materials – Charpy pendulum impact test – Part 2: Verication o test machine Metallic materials – Charpy pendulum impact test – Part 3: Preparation and characterisation o Charpy V reerence test pieces or verication o test machines Steel and steel products – Location and preparation o samples and test pieces or mechanical testing Steel and steel products – General technical delivery requirements Structural steels – Plates, wide fats, bars, sections and proles Steel – Hardenability test by end quenching (Jominy test) Steels – Micrographic determination o the apparent grain size Hot-rolled steel sections – Part 1: Equal-leg angles – Dimensions Hot-rolled steel sections – Part 14: Hot-nished structural hollow sections – Dimensions and sectional properties Hot-rolled steel sections – Part 15: Sloping fange beam sections (Metric series) – Dimensions and sectional properties Heat-treatable steels, alloy steels and ree-cutting steels – Part 1: Direct-hardening unalloyed and low-alloyed wrought steel in orm o dierent black products Heat-treatable steels, alloy steels and ree – cutting steels – Part 18: Bright products o unalloyed and low alloy steels Metallic materials – Tensile testing at elevated temperature Welding and allied processes – Vocabulary – Part 1: Metal welding processes Determination o indentation hardness by means o a Durometer (Shore A/ D hardness). Mechanical properties o asteners Rubber vulcanised – low temperature stiening (Gehman test) Metallic coatings – Hot-dip galvanised coating on abricated errous products – Requirements Vulcanised rubbers – Resistance to liquids – methods o tests Gas welding equipment – Pressure regulators or gas cylinders used in welding, cutting and allied processes up to 300 bar Welded, brazed and soldered joints – Symbolic representation on drawings Steel – Conversion o elongation values – Part 1: Carbon and low alloy steels Steel – Conversion o elongation values – Part 2: Austenitic steels Steel products or pressure purposes – Quality requirements – Part 1: Forgings Steel products or pressure purposes – Quality requirements – Part 3: Electric resistance and induction-welded induction-welded tubes Steel products or pressure purposes – Quality requirements – Part 5: Longitudinally welded austenitic stainless steel tubes Roughness Comparison Specimens, Cast Suraces Paints and varnishes – Comparison o contrast ratio (hiding power) o paint o the same type and colour Mechanical properties o corrosion resistant stainless steel asteners – Part 1: Bolts, screws and studs. Mechanical properties o corrosion resistant stainless steel asteners – Part 2: Nuts.
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International oil & gas standards available and active material standards committees
ISO 3545–1 ISO 3545–2 ISO 3690 ISO 3834 ISO 3834–2 ISO 4063 ISO 4136 ISO 4624 ISO 4628–6
ISO 4885 ISO 4948–1 ISO 4948–2 ISO 4954 ISO 4967 ISO 4986 ISO 4991 ISO 4998 ISO 5173 ISO 5256 ISO 5817 ISO 6506–1 ISO 6506–2 ISO 6506–3 ISO 6507–1 ISO 6507–2 ISO 6507–3 ISO 6508–1 ISO 6508–2 ISO 6508–3 ISO 6520–1 ISO 6520–2 ISO 6761 ISO 6892 ISO 6929 ISO 6947 ISO 7005–1 ISO 7005–2 ISO 7005–3 ISO 7438 ISO 7500–1 ISO 7963 ISO 8062
Steel tubes and ttings – Symbols or use in specications – Part 1: Tubes and tubular accessories with circular cross-section Steel tubes and ttings – Symbols or use in specications – Part 2: Square and rectangular hollow sections Welding and allied processes – Determination o hydrogen content in erritic steel arc weld metal Quality requirements or usion welding o metallic materials (5 parts) Quality requirements or welding – Fusion welding o metallic materials – Part 2: Comprehensive quality requirements Welding and allied processes – Nomenclature o processes and reerence numbers Destructive tests on welds in metallic materials – Transverse tensile testing Paints and varnishes – Pull-o test or adhesion. Paints and varnishes – Evaluation o degradation o paint coatings – Designation o intensity, quantity and size o common types o deect – Part 6: Rating o degree o chalking by tape method. Ferrous products – Heat treatments – Vocabulary Steels – Classication – Part 1: Classication o steels into unalloyed and alloy steels based on chemical composition Steels – Classication – Part 2: Classication o unalloyed and alloy steels according to main quality classes and main property or application characteristics Steel or cold heading and cold extruding Steel – Determination o content o non metallic inclusions – Micrographic method using standard diagrams Steel castings – Magnetic particle inspection Steel castings or pressure purposes Continuous hot-dip zinc-coated carbon steel sheet o structural quality Destructive tests on welds in metallic materials – Bend tests Steel pipes and ttings or buried or submerged pipe lines – External and internal coating by bitumen or coal tar derived materials Arc welded joints in steel – Guidance on quality levels or imperections. (identical to EN 25817) Metallic materials – Brinell hardness test – Part 1: Test method Metallic materials – Brinell hardness test – Part 2: Verication and calibration o testing Metallic materials – Brinell hardness test – Part 3: Calibration o reerence blocks Metallic materials – Hardness test – Vickers test – Part 1: Test method Metallic materials – Vickers hardness test – Part 2: Verication o testing machines Metallic materials – Vickers hardness test – Part 3: Calibration o reerence blocks Metallic materials – Rockwell hardness test – Part 1: Test method (scales A, B, C, D, E, F, G, H, K, N, T) Metallic materials – Rockwell hardness test – Part 2: Verication and calibration o testing machines (scale s A, B, C, D, E, F, G, G, H, K, N, T) Metallic materials – Rockwell hardness test – Part 3: Calibration o reerence blocks (scales A, B, C, D, E, F, G, H, K, N, T) Welding and allied processes – Classication o geometric imperections in metallic materials – Part 1: Fusion welding Welding and allied processes – Classication o geometric imperections in metallic materials – Part 2: Welding with pressure Steel tubes – Preparation o ends o tubes and ttings or welding Metallic material – Tensile testing at ambient temperature Steel products – Denitions and classication Welds – Working positions – Denitions o angles o slope and rotation Metallic fanges – Part 1: Steel fanges Metallic fanges – Part 2: Cast iron fanges Metallic fanges – Part 3: Copper alloy and composite fanges Metallic materials – Bend test Metallic materials – Verication o static uniaxial testing machines – Part 1: Tension/compression testing machines – Verication and calibration o the orce-measuring system Welds in steel – Calibration block no. 2 or ultrasonic examination o welds Castings – System o dimensional tolerances and machining allowances
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International Association o Oil & Gas Producers
ISO 8491 ISO 8492 ISO 8501–1
ISO 8501–3 ISO 8501–6 ISO 8502–9
ISO 8503 ISO 8504–2 ISO 9015–1 ISO 9015–2 ISO 9303 ISO 9304 ISO 9305 ISO 9327–1 ISO 9327–2
ISO 9327–3 ISO 9327–4 ISO 9327–5 ISO 9328–2
ISO 9328–3 ISO 9328–4
ISO 9328–5 ISO 9329–1 ISO 9329–2 ISO 9329–3 ISO 9329–4 ISO 9402
ISO 9598 ISO 9606–1
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Metallic materials – Tube (in ull section) – Bend test Metallic materials – Tube – Flattening test Preparation o steel substrates beore application o paints and related products – Visual assessment o surace cleanliness – Part 1: Rust grades and preparation grades o uncoated steel substrates and o steel substrates ater overall removal o previous coatings. Inormative supplement to part 1: Representative photographic examples o the change o appearance imparted to steel when blast-cleaned with dierent abrasives Part 3: Assessment o dust on steel suraces prepared or painting (pressure sensitive tape method). Part 6: Extraction Extractio n o soluble contaminants or analysis – The Bresle method. Preparation o steel substrates beore application o paints and related products – Test or the assessment o surace cleanliness – Part 9: Field method or the conductometric determination o water-soluble salts. Preparation o steel substrates beore application o paints and related products – Surace roughness characteristics o blast cleaned substrates. Preparation o steel substrates beore application o paints and related products – Surace preparation methods – Part 2: Abrasive blast cleaning. Destructive tests on welds in metallic materials – Hardness testing – Part 1: Hardness test on arc welded joints Destructive tests on welds in metallic materials – Hardness testing – Part 2: Microhardness testing o welded joints Seamless and welded (except submerged arc-welded) steel tubes or pressure purposes – Full peripheral ultrasonic testing or the detection o longitudinal imperections Seamless and welded (except submerged arc-welded) steel tubes or pressure purposes – Eddy current testing or the detection o imperections Seamless steel tubes or pressure purposes – Full peripheral ultrasonic testing or the detection o transverse imperections Steel orgings and rolled or orged bars or pressure purposes – Technical delivery conditions – Part 1: General requirements Steel orgings and rolled or orged bars or pressure purposes – Technical delivery conditions – Part 2: Non-alloy and alloy (Mo, Cr and CrMo) steels with specied elevated temperature properties Steel orgings and rolled or orged bars or pressure purposes – Technical delivery conditions – Part 3: Nickel steels with specied low temperature properties Steel orgings and rolled or orged bars or pressure purposes – Technical delivery conditions – Part 4: Weldable ne grain steels with high proo strength Steel orgings and rolled or orged bars or pressure purposes – Technical delivery conditions – Part 5: Stainless steels Steel plates and strips or pressure purposes – Technical delivery conditions – Part 2: Unalloyed and low-alloyed steels with specied room temperature and elevated temperature properties Steel plates and strips or pressure purposes – Technical delivery conditions – Part 3: Nickelalloyed steels with specied low temperature properties Steel plates and strips or pressure purposes – Technical delivery conditions – Part 4: Weldable ne grain steels with high proo stress supplied in the normalized or quenched and tempered condition Steel plates and strips or pressure purposes – Technical delivery conditions – Part 5: Austenitic steels Seamless steel tubes or pressure purposes – Technical delivery conditions – Part 1: Unalloyed steels with specied room temperature properties Seamless steel tubes or pressure purposes – Technical delivery conditions – Part 2: Unalloyed and alloyed steels with specied elevated temperature properties Seamless steel tubes or pressure purposes – Technical delivery conditions – Part 3: Unalloyed and alloyed steels with specied low temperature properties Seamless steel tubes or pressure purposes – Technical delivery conditions – Part 4: Austenitic stainless steels Seamless and welded (except submerged arc-welded) steel tubes or pressure purposes – Full peripheral magnetic transducer/fux leakage testing o erromagnetic steel tubes or the detection o longitudinal imperections Seamless steel tubes or pressure purposes – Full peripheral magnetic transducer/fux leakage testing o erromagnetic steel tubes or the detection o transverse imperections Approval testing o welders – Fusion welding – Part 1: Steels
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International oil & gas standards available and active material standards committees
ISO 9606–2 ISO 9606–3 ISO 9606–4 ISO 9606–5 ISO 9692–1
ISO 9692–2 ISO 9692–3 ISO 9692–4 ISO 9764 ISO 9765 ISO 9769 ISO 9956–1 ISO 9956–10 ISO 9956–11 ISO 9956–2 ISO 9956–3 ISO 9956–4 ISO 9956–7 ISO 9956–8 ISO 10042 ISO 10124 10124 ISO 10474 ISO 10543 ISO 11484 ISO 11496 11496 ISO 11971 ISO 11972 ISO 12094 ISO 12095 ISO 12096 ISO 12135 12135 ISO 12944–3 ISO 12944–5 ISO 13623
Qualication test o welders — Fusion welding — Part 2: Aluminium and aluminium alloys Approval testing o welders – Fusion welding – Approval testing o welders – Fusion welding – Copper and copper alloys. Approval testing o welders – Fusion welding – Nickel and nickel alloys. Approval testing o welders – Fusion welding – Titanium and titanium alloys, zirconium and zirconium alloys. Welding and allied processes — Recommendations or joint preparation — Part 1: Manual metal-arc welding, gas-shielded metal-arc welding, gas welding, TIG welding and beam welding o steels Welding and allied processes — Joint preparation — Part 2: Submerged arc welding o steels Welding and allied processes — Recommendations or joint preparation — Part 3: Metal inert gas welding and tungsten inert gas welding o aluminium and its alloys Welding and allied processes — Recommendations or joint preparation — Part 4: Clad steels Electric resistance and induction welded steel tubes or pressure purposes – Ultrasonic testing o the weld seam or the detection o longitudinal imperections Submerged arc-welded steel tubes or pressure purposes – Ultrasonic testing o the weld seam or the detection o longitudinal and/or transverse imperections Steel and iron – Review o available methods o analysis Specication and approval o welding procedures or metallic materials – Part 1: General rules or usion welding Specication and approval o welding procedures or metallic materials – Part 10: Welding procedure specication or electron beam welding Specication and approval o welding procedures or metallic materials – Part 11: Welding procedure specication or laser beam welding Specication and approval o welding procedures or metallic materials – Part 2: Welding procedure specication or arc welding Specication and approval o welding procedures or metallic materials – Part 3: Welding procedure tests or arc welding o steels Specication and approval o welding procedures or metallic materials – Part 4: Welding procedure tests or the arc welding o aluminium and its alloys Specication and approval o welding procedures or metallic materials – Part 7: Approval by a standard welding procedure or arc welding Specication and approval o welding procedures or metallic materials – Part 8: Approval by a pre-production welding test Arc-welded joints in aluminium and its weldable alloys – Guidance on quality levels or imperections Seamless and welded (except submerged arc-welded) steel tubes or pressure purposes – Ultrasonic testing or the detection o laminar imperections Steel and steel products – Inspection documents Seamless and hot-stretch-reduced welded steel tubes or pressure purposes – Full peripheral ultrasonic thickness testing Steel products — Employer’s qualication system or non-destructive testing (NDT) personnel Seamless and welded steel tubes or pressure purposes – Ultrasonic testing o tube ends or the detection o laminar imperections Steel and iron castings – visual examination o surace quality Corrosion-resistant cast steels or general applications Welded steel tubes or pressure purposes – Ultrasonic testing or the detection o laminar imperections in strips/plates used in the manuacture o welded tubes Seamless and welded steel tubes or pressure purposes – Liquid penetrant testing Submerged arc-welded steel tubes or pressure purposes – Radiographic testing o the weld seam or the detection o imperections Metallic materials – Unied method o test or the determination o quasistatic racture toughness Paints and Varnishes – Corrosion protection o steel structures by protective paint systems – Part 3: Design considerations. Paints and varnishes – Corrosion protection o steel structures by protective paint systems – Part 5: Protective paint systems. Petroleum and natural gas industries – Pipeline transportations systems
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International Association o Oil & Gas Producers
ISO 13628–1 ISO 13628–2 ISO 13628–5 ISO 13628–7 ISO 13628–11 ISO 13663 ISO 13664 ISO 13665 ISO 13916 ISO 13920 ISO 14175 ISO 14284 ISO 14313 ISO 14731 ISO 14732 ISO 15510 15510 ISO 15607 ISO 15609–2 ISO 15609–3 ISO 15609–4 ISO 15609–5 ISO 15610 15610 ISO 15611 ISO 15612 ISO 15613 ISO 15614–1
ISO 15614–2 ISO 15614–3 ISO 15614–4 ISO 15614–5 ISO 15614–6 ISO 15614–7 ISO 15614–8 ISO 15614–10 15614–10
PNGI– Design and operation o subsea production systems – General requirements and recommendations Unbonded fexible pipe systems or subsea and marine applications. Subsea control umbilicals. Work over/completion over/completion ris er systems Flexible pipe systems or subsea and marine applications Welded steel tubes or pressure purposes – Ultrasonic testing o the area adjacent to the weld seam or the detection o laminar imperections Seamless and welded steel tubes or pressure purposes – Magnetic particle inspection o the tube ends or the detection o laminar imperections Seamless and welded steel tubes or pressure purposes – Magnetic particle inspection o the tube body or the detection o surace imperections Welding – Guidance on the measurement o preheating temperature, interpass temperature and preheat maintenance temperature Welding – General tolerances or welded constructions – Dimensions or lengths and angles – Shape and position Welding consumables – Shielding gases or arc welding and cutting Steel and iron – Sampling and preparation o samples or the determination o chemical composition PGNI – Specication or Pipeline Valves Welding coordination – Tasks and responsibilities Welding personnel – Approval testing o welding operators or usion welding and o resistance weld setters or ully mechanized and automatic welding o metallic materials (I.Q.I.) Stainless steels – Chemical composition Specication and qualication o welding procedures or metallic materials – General rules Specication and qualication o welding procedures or metallic materials — Welding procedure specication — Part 2: Gas welding Specication and qualication o welding procedures or metallic materials — Welding procedure specication — Part 3: Electron beam welding Specication and qualication o welding procedures or metallic materials — Welding procedure specication — Part 4: Laser beam welding Specication and qualication o welding procedures or metallic materials — Welding procedure specication — Part 5: Resistance welding Specication and qualication o welding procedures or metallic materials – Qualication based on tested welding consumables. Specication and qualication o welding procedures or metallic materials – Qualication based on previous welding experience Specication and qualication o welding procedures or metallic materials – Qualication by adoption o a standard welding procedure Specication and qualication o welding procedures or metallic materials – Qualication based on pre-production welding test Specication and qualication o welding procedures or metallic materials — Welding procedure test — Part 1: Arc and gas welding o steels and arc welding o nickel and nickel alloys Specication and qualication o welding procedures or metallic materials — Welding procedure test — Part 2: Arc welding o aluminium and its alloys Specication and qualication o welding procedures or metallic materials — Welding procedure test — Part 3: Fusion welding o non-alloyed and low-alloyed cast irons Specication and qualication o welding procedures or metallic materials — Welding procedure test — Part 4: Finishing welding o aluminium castings Specication and qualication o welding procedures or metallic materials — Welding procedure test — Part 5: Arc welding o titanium, zirconium and their alloys Specication and qualication o welding procedures or metallic materials — Welding procedure test — Part 6: Arc and gas welding o copper and its alloys Specication and qualication o welding procedures or metallic materials — Welding procedure test — Part 7: Overlay welding Specication and qualication o welding procedures or metallic materials — Welding procedure test — Part 8: Welding o tubes to tube-plate joints Specication and qualication o welding procedures or metallic materials — Welding procedure test — Part 10: Hyperbaric dry welding
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International oil & gas standards available and active material standards committees
Specication and qualication o welding procedures or metallic materials — Welding procedure test — Part 11: Electron and laser beam welding ISO 15614–12 15614–12 Specication and qualication o welding procedures or metallic materials — Welding procedure test — Part 12: Spot, seam and projection welding ISO 15614–13 15614–13 Specication and qualication o welding procedures or metallic materials — Welding procedure test — Part 13: Resistance butt and fash welding ISO 15618–1 Qualication testing o welders or underwater welding — Part 1: Diver-welders or hyperbaric wet welding ISO 15618–2 Qualication testing o welders or underwater welding — Part 2: Diver-welders and welding operators or hyperbaric dry welding ISO 17636 Non-destructive testing o welds – Radiographic testing o usion-welded joints ISO 19840 Paints and varnishes – Corrosion protection o steel structures by protective paint systems – Measurement o, and acceptance criteria or, the thickness o dry lm on rough suraces ISO 20340 Paints and varnishes – Perormance requirements or protective paint systems or oshore and related structures ISO D34 Rubber, vulcanized or thermoplastic – Determination o tear strength ISO/TR 15608 Welding – Guidelines or a metallic materials grouping system NACE RP0188 Discontinuity (holiday) testing o protective coatings, nickel alloys NORSOK L–001 Piping and Valves NORSOK N–001 Structural design NORSOK N–004 Design o steel structures NORSOK R–004 Piping and Equipment Insulation NORSOK S–002 Working environment NS 3420 Beskrivelsestekster or bygg og anlegg (Specication texts or building and construction) NS 3472 Prosjektering av stålkonstruksjoner. Beregnings og konstruksjonsregler. (Steel structures Design rules) NS 3473 Concrete Structures. Design Rules. NS 476 Paints and coatings – Approval and certication o surace treatment inspectors NS 477 Welding. Rules or approval o welding inspectors NTS–GRP–FJS/01 Certication o personnel or installation o composite pipes NTS–GRP–INSP/01 Certication o inspectors or installation o composite pipes SFS 8145 Anticorrosive painting, surace preparation methods o blast cleaned and shop primer coated steel substrates and preparation grades or respective treatments. SSPC/SSPM Vol 2 Systems and Specications, Fourth Edition U.S. Mil. Spec. 18001 Military Specication or Anodes, Corrosion preventive, Zinc; slab, disc and rod shaped. ISO 15614–11
3.4 OGP Catalogue o standards
OGP Standards committee has developed a Catalogue o International IEC and ISO Standards used in the petroleum & natural gas industries. Tis report lists about ,3 ISO standards and 7 IEC I EC standards used by the OGP OG P Standards committee member companies. For ull catalogue re. OGP Report 36, January 5 available at http://www.ogp.org.uk.
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International Association o Oil & Gas Producers
– ISO/C 67 “materials” related standards committees 4.1 General
ISO/C 67 “Materials, equipment and oshore structures or the petroleum, petrochemical and natural gas industry” is the main ISO committee or development o standards within the upstream oil & gas ga s industry. API oered 88 o its specications and recommended practices to start work in this committee in 8. A number number o the ISO standards developed are also al so applicable to the downstream industry. ISO/C 67 enjoys good cooperation with A PI, CEN, GOS, GSO, SAC and other SDOs which adopts many o the ISO standards sta ndards published. API have re-adopted about 6 ISO/C 67 standards, whereas CEN/C has adopted about 5 ISO/C 67 standards as o April . China, Gul states, Russia and others also adopts the ISO/C 67 standards. ISO/C 67 related websites: •
http://www.iso.org/iso/standards_development/technical_committees/list_of_iso_technical_committees/iso_ technical_committee.htm?commid=49506
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http://committees.api.org/standards/isotc67/index.html
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4.2 ISO/TC 67/WG 67/WG 5 Aluminium Aluminiu m alloy pipes
Tis is an a n active WG directly under the C itsel and a nd it is presently convened convened by Russia. Te WG is responsible responsible or the development development and maintenance maintenance o the ollowing ollowing standards: Aluminium alloy drill pipe DIS 20312 RP or design and operating limits o drill stem o aluminium drill string WD 27627 Aluminium alloy drill pipe thread connection gauging ISO 15546
4.3 ISO/TC 67/WG7 67/WG7 Materials Materi als or use in H 2S containing environments in oil & gas production
Tis is an a n active WG directly under the C itsel and a nd it is presently convened convened by Germany. Te WG is responsible responsible or the development development and maintenance maintenance o ISO 5 556 Materials or use in HS containing environments in oil & gas ga s production, now published published in three parts: pa rts: Part : General principles or selection o cracking–resistant material Part : Cracking resistant carbon and low alloy steels Part 3: Cracking Cracki ng resistant CRAs (corrosion– (corrosion–resistant resistant alloys) and other alloys Te ISO standards have been adopted by NACE as MR75/ISO 556 identically. A joint maintenance panel has been appointed to maintain the standards sta ndards and provide interpretations. interpretations. Re http://www.nace.org/NACE/Content/technical/MR0175/MaintenanceActivities.pdf and and http://isotc.iso.org/livelink/livelink?func=ll&objId= http://isotc.iso.org/livelink/livelink?func=ll&objId =3340364&objAction= 3340364&objAction=browse&sort=name browse&sort=name. •
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International oil & gas standards available and active material standards committees
Another project in this WG7 is ISO 336– Petroleum Petroleum and natural gas ga s industries – Nonmetallic materials in contact with media related to oil & gas production – in several parts: Part : Termoplastics – published April Part : Elastomers – work starting with assistance rom MERL JIP Part 3: Termosets Part : Fibre reinorced composites composites Part 5: Other nonmetallic materials Further parts o this standard will be developed when time and resources are available. •
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4.4 ISO/TC 67 67/WG8 Materials, corrosion, welding welding and joining and ndt
Following the OGP Materia ls Workshop Workshop 7-8 7-8 February 7, it was proposed to reactivate this WG (disbanded (disbanded in ). ). Te reactivated WG WG held its rst meeting meeting - June 7, 7, hosted by Chevron in Houston, exas exas with a Brazilian Brazilia n secretariat. Te global oil & gas industry now have an international material standards work group that can discusses and take the broad view on what is required in terms o general materials requirements and recommendations recommendations rom a truly tr uly international point o v iew. Te international international materials standards work within many dierent di erent work work groups both at the internatio i nternational, nal, national and at an industry i ndustry level may be inuenced. Te present scope o WG8 is as ollows: to provide advice to ISO/C 67 subcommittees and work groups on the selection o Standards or materials, corrosion control, welding and joining and NDE, either ISO or others as appropriate at the time; to analyse the current and pending ISO/C 67 design and equipment standards or reerences to materials, corrosion control, control, welding and a nd joining and NDE N DE requirements in order to determine the gaps and overlaps; to identiy possible new work items to ll the gaps; to propose rationalisation where overlaps exist, or example by identiying possible new work items items to harmonise the overlaps; overlaps; to assist in the t he prioritisation o work items or materials, corrosion control, control, welding and joining and NDE; to propose the initiation o new work items that are directly relevant to ISO/C 67 and that are specically in the elds o materials, corrosion control, welding and joining and NDE, and a nd to recommend recommend where in ISO the work could be done most efciently; to propose liaisons, on behal o ISO/C IS O/C 67 67, with other ISO Cs covering materials, corrosion control, control, welding and joining and a nd NDE, where it is necessary necessar y to ensure that the needs o ISO/C 67 are met. WG8 has one one active new work work item ( (57 57): ): o o develop an ISO or “PNGI “PNGI – Materials selection and corrosion control or oil & gas production systems”. •
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International Association o Oil & Gas Producers
4.5 ISO/TC 67/SC2/WG 67/SC2/WG 8 Welding o pipelines pipeline s
Tis is an active WG under SC with the responsibility to maintain and revise ISO 387 Welding Welding o pipelines (based on API ). ). WG WG started revision May 7. 7. 4.6 ISO/TC 67/SC2/WG 67/SC2/WG 10 Induction Inductio n bends, anges, ttings
Tis is at present an inactive WG under SC with the responsibility to maintain and revise ISO 55 55 Induction bends, anges, ttings, tting s, part par t -3. -3. 4.7 ISO/TC 67/SC2/WG1 67/SC2/WG11 1 Cathodic Protection o land & ofshore pipelines
Tis WG is responsible or ISO 558 558 part (land) issued in i n 3 and a nd part (oshore) (oshore) issued in 4.8 ISO/TC 67/SC2 67/SC2 WG WG 14 14 External pipeline protective coatings
Tis is a large and very active WG with ve task groups with the responsibility to develop a new series o standards or External E xternal pipeline protective coatings, ISO I SO 8, 8, in 5 parts: pa rts: •
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WG– WG– Polyolen Polyolen coatings (3-layer (3-layer PE & 3-layer 3-layer PP) PP) WG– WG– Fusion bonded bonded epoxy coatings – published 7 WG– WG–33 Field joint joint coatings – published published 8 WG– WG– Polyethylene Polyethylene coatings coatings (-layer (-layer PE) PE) WG–5 WG–5 External concrete coatings
4.9 ISO/TC 67/SC2/WG1 67/SC2/WG16 6 Line pipe – ISO 3183 3183 revision
Tis WG has successul ly revised ISO 383 383 (combined (combined three parts to one part) par t) and the new standard was published by ISO in i n March 7 7. Tis work is done in cooperation with API A PI committee revising their API A PI Spec 5L or line pipe, with the intent that the new ISO 383 383 standard will be adopted as the next revision o API Spec 5L. Te adopted API spec 5L was published as its th Revision, dated October 7 7. Tis is i s a major achievement. It may be interesting to note that Russia has translated a nd ormally adopted the ormer issue o ISO 383: standard in three parts and issued it as a GOS R/ISO standard. China has also adopted this three part ISO standard as GB/ 7. 4.10 ISO/TC 67/SC4/WG3 Wellhead and Christmas tree equipment
Tis WG is responsible or the maintenance o ISO 3 Wellhead and Christmas tree equipment. equipment. Tis is done in close cooperation with API and with the clear intent that the new revision o ISO 3 will be the next revision o API Spec 6A with same title. Tese two documents have been worked worked in parallel para llel or some years, but there is some divergence in the API adoption o the ISO standard, which now hopeully will be resolved. Te DIS 3 ballot closed in November 8. Tis standard is a key documents as many other standards within the oil & gas industry makes reerences reerences to ISO 3 and a nd API Spec 6A.
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International oil & gas standards available and active material standards committees
4.11 4.11 ISO/TC ISO/ TC 67/SC4/WG6 67/SC4/WG6 Subsea equipment
Tis WG has a large series o ISO I SO 368 standards currently issued in parts, but work is underway to develop ve more parts o this standards. Works closely with w ith API/C/SC API/C/SC7 7 Subsea. Materials Material s requirements and recommendations recommendations are embedded in the individual standards, with more general material materia l recommendations recommendations and requirements in ISO 368, part par t General recommendations and requirements. requirements. In 5 5 a materials material s task group was jointly ormed by API A PI SC7 SC7 and ISO/C IS O/C 67/SC/ 67/SC/ WG6 to develop develop a new clause 6 or the materials requirements requirements and recommendations recommendations in ISO 368–. 368–. Tis group is a lso developing a new Annex L or Materials and a nd welding o maniold piping and jumpers. jumpers. Tese updates will be published as amendments amendments aer a normal ISO ballot bal lot process. Te dras have now been completed completed by the task group and the DIS ballot was closed in March . In December o 8, 8, an a n SPE Applied echnology echnology Workshop (AW) (AW) on Subsea Standardization was held in Austin, exas. exas. Te AW was well attended and represented represented a wide cross section o the subsea industry or both operators and equipment manuacturers. Te general consensus o the group was there is potentially room or some level o i ndustry standardisation. Te ocus o this standardisation is likely to be material and welding qualication and quality assurance. 4.12 ISO/TC 67/SC5 Casing, tubing and drill pipe
Tis Subcommittee deals with all the OCG which is one o the large commodity items in the oil & gas industry. Tere are three main ISO standards in this area rom a materials point o view: •
ISO 11960 Casing & tubing (API 5C)
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ISO 11961 11961 Drill pipe (API 5D) 5D)
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ISO 13980 Corrosion resistant alloy seamless tubes or use as casing, tubing, and cou-
pling stock (API 5CRA). Tese have been established on the basis o the API A PI Specications and now there is good cooperation between ISO and API on these matters with the ISO standards being back-adopted by API. Te ISO work is handled by two working groups under SC5: •
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WG Casing, tubing and drill pipe WG 3 Corrosion Corrosion resistant alloy seamless tubes or use as casing, tubing and coupling stock.
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International Association o Oil & Gas Producers
4.13 4.13 ISO/TC 67/SC6/WG5 Piping systems system s
WG 5 Piping Piping systems is responsible responsible or the ollowing standards which includes more more or less material related topics: 373 Oshore piping 6 GRP piping – parts; in revision. 56 Piping ISO 373 is an international adoption o API Spec E which agai n is largely based on ANSI B3.3 or piping on the oshore installations. insta llations. ISO I SO 56 is an adoption a doption o ISO 373 to comply with the EU Pressure Equipmen E quipmentt Directive. ISO I SO 373 may – together with ISO IS O 56 – be revised rev ised to carry carr y the necessary international supplements, supplements, including material requirements requirements and recommendations or the use o ANSI B 3.3 or piping on oshore installations. Norway has supplementary supplementary requirements requirements in NORSOK L– Piping and valves, M–6 Welding Welding and inspection o piping and M–63 M– 63 and Material data sheets or piping and EEMUA also have some documents in this area. •
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ISO 373 was reconrmed in 5 with no revision. I there is support or revising ISO 373 373 Oshore piping to carry car ry the t he necessary international international supplements supplements a New Work Work Item Proposal is required to be positively balloted to open this or urther work. In the present orm the document does not suitably cover material requirements. requirements. 4.14 ISO/TC 67/SC7 Ofshore structures
Tis SC which is i s under British leadership has a WG3 which have been working working or many ma ny years on developing ISO “Fixed oshore steel structures”, now at 65 pa ges (!). (!). Tis standard was published in November November 7. 7. It includes includes a large clause on materials and one on abrication o steel structures. Present thinking think ing is that these two sections should become a separate standard at next revision. API is closely ollowing and participating in this work and has made plans or the adoption o the ISO –series o standards within the next ew years. ISO was adopted by CEN as EN ISO shortly aer ISO publication and within six months all European countries are obliged to adopt this standard as their national standard or “Fixed oshore steel structures”. structures”. Denmark has already included i ncluded this new standard in their revised oshore regulations. Another important standard within this th is committee is ISO –3 –3 opside opside structures. Te same materials and abrication clauses basically applies here. Tis standard is still in its development opment stages, with w ith DIS ballot bal lot closed in November o 7. 7. Finally SC7 has a WG8 under Canadian leadership that works on an ISO 6 standard or arctic oshore structures. Tis standard is presently at DIS ballot.
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International oil & gas standards available and active material standards committees
5 – Other ISO material relevant committees 5.1 5.1 ISO/TC 17 Steel
ISO/C7 ISO/C7 covers standardisation in the eld o cast, wrought w rought and cold-ormed steel, including technical delivery conditions or steel tubes or pressure purposes. E xcluded: steel tubes within the t he scope o ISO/C 5; line pipe, casing, tubing and drill pipe within the scope o ISO/C 67; methods o mechanical testing o metals meta ls within the scope o ISO/C 6. 6. Te current main subject in i n the development o ISO standards in ISO/C7 ISO/C7 is to improve the market relevancy o ISO I SO standards developed or to be developed within with in ISO/C7 ISO/C7. o make ISO standards more usable in the market, international trade will be urther promoted. Te benets o standardisation, such as cost reduction and a speedier distribution o products can be expected. Basic Ba sic attitude o the ISO C7 C7 or the preparation o ISO standards is ollows, •
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•
. ISO/C7 ISO/C7 esteems the spirit o the WO/B W O/B Agreement and devotes all eorts toward the preparation o ISO standards usable in the market o its member nations, either directly or indirectly through national or regional standards. . Each nation already has its own national or regional standards reecting market needs based on individual climatic and geological environments, historical backgrounds o technologies, Laws and technological regulations. o make ISO standards acceptable a cceptable to the markets o dierent nations, the coverage and contents contents o their national or reg ional standards should be respected in their preparation, especially in the early stage o their preparation. 3. All nations should aim at keeping the dierence between their national standards and ISO standards, at least, at the level a) or b) o “Modied” specied in the ISO/IEC Guide :. . Te P-members o ISO/C7 or ISO/C7/SCs should ensure to let all members joining early development development work o an ISO standard within ISO/C I SO/C7 7 act along the guideline. Subcommittee/Working Group of ISO/TC17 relevant for oil & gas: TC 17/AG
Advisor y group
TC 17/WG 15
Steel Steel – Basic Basic rules rules or speciying speciying impact impact stren strength gth in speciic speciicatio ations ns
TC 17/WG /WG 16
Mag Magnet netic steel teelss
TC 17 17/WG /WG 17 17
Stee Steell name namess base based d on prin princi cipa pall symb symbol olss
TC 17/SC 1
Meth Method odss o dete determ rmin inat atio ionn o chem chemic ical al comp compos osit itio ionn
TC 17 17/SC 3
Steels o or st structural pu purposes
TC 17/SC 4
Heat Heat tre treata atable ble and and alloy loy stee teels
TC 17/SC /SC 7
Method Methodss o o test testin ing g (oth (other er than than mech mechan anica icall test testss and and chemi chemical cal analys analysis is))
TC 17 17/SC 10 10
Stee Steell or or press essure ure pur purpo pose sess
TC 17/SC 11
Steel castings
TC 17 17/SC 12
Cont Contiinuou nuouss mil milll la latt rol rolle led d prod produc ucts ts
TC 17/SC /SC 16 16
Steel Steelss or or the rein reinor orcem cemen entt and and prestr prestress essing ing o concre concrete te
TC 17/SC /SC 19 19
Techn Technic ical al del deliv ivery ery cond condit ition ionss or or steel steel tubes tubes or or press pressure ure purpos purposes es
TC 17 17/SC 20 20
Gene Genera rall tech techni nica call deli delive very ry cond condit itio ions ns,, samp sampli ling ng
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ISO/C7 ISO/C7 has chairman and a nd secretariat held by Japan. It appears to be an active committee. Tere are many other WGs under some o the t he SCs. Total number o published ISO standards related to the TC and its SCs:
306
Participating countries:
30
Obser ving countries:
34
Examples o standards in ISO/TC17 under development:
Steel at products or pressure purposes — echnical delivery conditions — Part : General requirements requirements ISO/CD 9328–2 Steel at products or pressure purposes — echnical delivery conditions — Part : Non-alloy and alloy steels with specied elevated temperature properties ISO/DIS 10332 Non-destructive Non-destructive testing o steel tubes — Automated ultrasonic testing o seamless and welded (except submerged submerged arc-welded) arc-welded) steel tubes or verication o hydraulic leaklea k-tightness tightness as a substitution or the hydraulic test Non-destructive testing o steel tubes – Many parts ISO/DIS 10893–x Non-destructive ISO/DIS 4986 Steel and iron castings — Magnetic particle inspection ISO/DIS 4987 Steel and iron castings — Liquid penetrant inspection ISO/NP 10474 Steel and steel products — Inspection documents Structural steels — Part : General delivery conditions or hot rolled ISO/WD 630–1 products ISO/WD ISO/WD 630–2 Structural steels — Part : echnical delivery conditions or non alloy structural steels or general purpose. ISO/CD 9328–1
5.2 ISO/TC35 ISO/TC35 Paints Paints and varnishes varnishes
Tis committee develops ISO standards o interest to the oil & gas industry: Paints and varnishes varni shes – Friction-reduction Friction-reduction coatings or the interior o ISO 15741:2001 Paints and varnishes on – and oshore steel pipelines or non-corrosive gases ISO 20340:2003 Paints and varnishes varni shes – Perormance requirements or protective paint systems or oshore and related structures ISO 12944
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International oil & gas standards available and active material standards committees
5.3 ISO/TC44 Welding Welding and allied processes processes
ISO/C produces standards in the eld o welding, by all processes, as well as allied processes; these standards include terminology, denitions and the symbolic representation representation o welds on drawings, apparatus and equipment equipment or welding, welding, raw materials (gas, (ga s, parent and ller metals) welding processes and rules, methods o test and control, calculations and design o welded assemblies, assemblies, welders’ qualications as well as saety and health. Total number o published ISO standards related to the TC and its SCs:
276
Participating countries:
34
Obser ving countries:
37
Tis committee develops a number o ISO standards o general interest also to the oil & gas industry. 5.4 ISO/TC156 ISO/TC156 Corrosion Corros ion o metals and alloys
ISO/C 56 56 is responsible or standardisation in the eld o corrosion o metals a nd alloys including corrosion test methods and corrosion preventio preventionn methods. It also al so deals with the coordination o these activities within ISO. Total tal nu number ber o o publ publiished shed ISO sta stand ndar ard ds re relate lated d to to the the TC and its SCs:
54
Par ticipating countries:
20
Obser ving countries:
27
Tis committee develops ISO standards o interest to the oil & ga s industry.
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6 – API standards committees API has been working on standards or the oil & gas industry since 3 and materials issues are integrated and covered in many o its subcommittees and work groups, which are normal ly split on component component level, such as: a s: •
SC2 – Subcommittee on Oshore Structures
•
SC5 – Subcommittee on ubular ubular Goods Go ods
•
SC6 – Subcommittee on Valves & Wellhead Equipment
•
SC8 – Subcommittee on Drilling Structures & Equipment
•
SC15 – Subcommittee on Fiberglas & Plastic ubulars ubulars
•
SC16 – Subcommittee on Drilling Dri lling Well Control Equipment
•
SC17 – Subcommittee on Subsea Production Equipment Equipment
•
SC18 – Subcommittee on Quality
•
SC19 – Subcommittee on Completion Equipment
•
SC20 – Subcommittee on Supply Chain Management
Many o the standards developed by API have been oered to ISO or internationalisation and about 6% o the ISO/C 67 standards now published are based on previous API documents. API is recognised by the American National Standards Institute (ANSI) as the national US standards development development organisation or the oil oi l & gas ga s industry. Some o the key API standards which are important as regards material requirements requirements are: Planning, Designing and Constructing Fixed Oshore Platorms — Working Working Stress Design API Spec 2W Steel Plates or Oshore O shore Structures, Produced by Termo-Mechanical Control Processing (MCP) API Spec 2Y Steel Plates, Quenched Q uenched-and-tem -and-tempered, pered, or Oshore Structures API RP R P 2Z Preproduction Preproduction Qualication Quali cation or Steel Plates or Oshore Structures API Spec 2B Fabrication o Structural Steel Pipe API Spec 5CT Casing and tubing API Spec 6A Wellhead Wellhead and christmas tree equipment API RP R P 14E Oshore piping Evaluation Standard or Internal Pressure Sheath Polymers or High API TR 17TR1 emperature Flexible Pipes API TR 17TR2 17TR 2 Te Ageing o PA– in Flexible Pipes API RP R P 49 Recommended Practice or Drilling and a nd Well Well Servicing Ser vicing Operations Involving Hydrogen Sulde API RP R P 571 Damage Mechanisms Aecting Fixed Equipment in the Rening Industry Use o Duplex Stainless Steels in the Oil Rening Industry API TR 938– C API Std 1104 Welding Welding o Pipelines and Related Facilities Facilities API RP R P 1111 1111 Design, Construction, Operation, and a nd Maintenance o O-shore Hydrocarbon Pipeline and Risers Te new API SC or “Supply chain management” looks into some materials materials issues related to critical orgings, orgi ngs, heat treatment and ND: API RP R P 2A–WSD
Closed-die orgings or critical services API Spec 20B Heat treatment API Spec 20C ND API committee documents are available at: http://committees.api.org/standards/ecs/index.html. API Spec 20A
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International oil & gas standards available and active material standards committees
7 – ASM ASM standards committees committees Numerous ASM standards are being used in the oil & gas industry as reerence documents, however, no active participation by the global oil & gas industry in ASM work well is known. Te ASM standards are used in many instances by the upstream oil & gas community and in particular particula r in Europe with additional requirements. requirements.
8 – AWS standards committees American Welding Society has been developing standards used by the oil & gas industry or many years. One o the best known k nown standards may be: AWS D1.1 D1.1
Structural welding code steel
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– CEN Materials related committees 9.1 CEN/TC12
Tis committee mainly main ly adopts the standards developed by ISO/C 67 as EN-ISO standards. Tese in turn are adopted by all members o CEN, which are basically all the 3+ members countries o EU and EEA. As o end 8, CEN/C CEN/C has adopted about o the ISO/ C 67 published standards. Tis implies that these standards will have been adopted – or will be adopted within six months o their CEN approval – as national standards or the subjects in question by all European countries, with the competing national standards to be withdrawn. 9.2 CEN/TC 219 cathodic cathodi c protection protecti on
Tis committee have developed standards o relevance or the oil & gas industry, mainly rom a European perspective. Lia ison with this committee is in discussion by ISO/C 67/SC/ 67/SC/ WG WG EN 12473:2000 General principles o cathodic protection in sea water EN 12474:2001 Cathodic protection o submarine pipelines EN 12495:2000 Cathodic protection or xed steel oshore structures EN 12954:2001 Cathodic protection o buried or immersed metallic structures – Gen-
eral principles and application or pipelines EN 13173:2001 Cathodic protection or steel oshore oating structures str uctures EN 15112:2006 External cathodic protection o well casings Some o these standards standa rds were in the process o being adopted by ISO/C IS O/C 56, 56, but ISO/C 67 have commented this and requested some reconsiderations in view o having issued ISO 558, part and . 9.3 CEN/TC234 Gas inrastructure
Te WG3 o this committee has developed an extensive ex tensive package o standards or gas ga s pipelines used in Europe, including material standards. sta ndards. Discussions have been held with ISO/C 67/SC 67/SC to harmonise its standards, but so ar with w ith little success. Hence, when CEN/C CEN/C adopted the ISO/C 67 standard 363 or pipelines it had to be restricted to exclude onland gas pipelines. So also al so with the accompanying welding and component standards. However, However, work is underway underway to study the dierences dierences in these standards, which will hopeul ly lead to new eorts in the harmonisation work.
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International oil & gas standards available and active material standards committees
– ECISS ECISS (European Committee or Iron I ron and Steel Standardization) has taken ta ken over the standardisation activities o COCOR, the t he Coordinating Committee on the nomenclature o iron and steel products, a committee originally set up under the ECSC (European Coal and Steel Community) reaty. reaty. It develops dra standards which are a re then submitted or the ormal orma l approval o the CEN National Members. ECISS became beca me an Associated Body o CEN in 86. Te CEN Management Centre provides its Secretariat. ECISS has ha s until now the ollowing technical committees: ECISS/TC 1 ECISS/TC 2 ECISS/TC 6 ECISS/TC 7 ECISS/TC 9 ECISS/TC 10 ECISS/TC 11 ECISS/TC 12 ECISS/TC 13 ECISS/TC 15 ECISS/TC 19 ECISS/TC 20 ECISS/TC 21 ECISS/TC 22 ECISS/TC 23 ECISS/TC 24 ECISS/TC 26 ECISS/TC 27 ECISS/TC 29 ECISS/TC 30 ECISS/TC 31
Steel – Mechanical testing Steel – Physico-chemical and non-destructive testing Steels – Denition and classication Conventional Conventional designation o steel echnical conditions o delivery deliver y and quality qual ity control Structural steels – Grades and qualities Structural steel sections and hot rolled steel bars or engineering use – Dimensions and tolerances Structural steels and steels or pressure purposes, at products – Dimensions and tolerances Flat products or cold working – Qualities, Qual ities, dimensions, tolerances and specic tests Wire-rod – Qualities, dimensions, tolerances tolerances and specic tests Concrete reinorcing and prestressing steels – Properties, dimensions, tolerances and specic tests Methods o chemical analysis ana lysis o errous products Vocabular Vocabularyy o heat treatment treatment terms terms Steels or pressure purposes – Qualities Steels or heat treatment, alloy steels and ree-cutting steels – Qualities and dimensio di mensions ns Electrical steel sheet and strip qualities – Qualities, dimensions, tolerances and specic tests inmill products – Qualities, dimensions, tolerances and specic tests Surace coated at products – Qualities, Qua lities, dimensions, tolerances and specic tests Steel tubes and ttings or steel tubes Steel wires Steel castings
ECISS/C has among many others, developed the ollowing standard: EN 10225:2001 Weldable Weldable structural steels or xed oshore structures – echnical echnical deliv-
ery conditions (which is under development development and approval, targeted or August )
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ECISS/C has among many others, developed the ollowing standard: EN 10208–1:1997 10208–1:1997 Steel pipes or pipelines pipeli nes or combustible uids – echnical echnical delivery
conditions conditions – Part Par t : Pipes o requirement class A EN 10208–2:1 10208 –2:1996 996 Steel pipes or pipelines pipeli nes or combustible uids – echnical echnical delivery conditions conditions – Part Par t : Pipes o requirement requirement class B EN 10288:2002 Steel tubes and ttings or onshore and oshore pipelines – External two layer extruded polyethylene based coatings EN 10289:2002 Steel tubes and ttings or onshore and oshore pipelines – External liquid applied epoxy and epoxy-modied coatings EN 10290:2002 Steel tubes and ttings or onshore and oshore pipelines – External liquid applied polyurethane and polyurethane-modied coatings Steel tubes and ttings or on shore and oshore pipelines – Internal EN 10298:2005 lining with cement mortar EN 10300:2005 Steel tubes and ttings or onshore and oshore pipelines – Bituminous hot applied materials or external coating EN 10301:2003 Steel tubes and ttings or on and oshore pipelines – Internal coating or the reduction o riction or conveyance o non corrosive gas EN 10310:2003 Steel tubes and ttings or onshore and oshore pipelines – Internal and external polyamide powder based coatings Steel tubes and ttings or onshore and oshore pipelines – External EN 10329:2006 eld joint coatings EN 10339:2007 Steel tubes or onshore and oshore water pipelines – Internal liquid applied epoxy linings lini ngs or corrosion protection ECISS/C/SC ECISS/C/SC works with ISO/C 67/SC 67/SC on pipeline coating standards and their adoption into the European sphere. A new organisation o ECISS was decided in Vienna end o 8 and will be put in place beginning o . Numbers Numbers have not yet been given g iven to the new echnical Committees. Te new list o Cs is given g iven below:
New title
Former ECISS TCs
Secr.
General issues
ECISS/TC 5 (disbanded), 6, 7, 9, 21
UK
Tests other than chemical analysis
ECISS/TC 1 and 2
FR
Chemical analysis
ECISS/TC 20
SE
Struct Structura urall steel steelss other other than than rei reino norce rceme ments nts
ECISS ECISS/T /TC C 10 10 (+ SC SC1 and 4), 4), 11 11, 12 12
DE
Reinorcing and prestressing steels
ECISS/TC 19 (+ SC 1 and 2)
DE
Steels or heat treatment, alloy steels, reecutting steels and stainless steels
ECISS/TC 23 (+SC 1)
DE
Wire rod and wire
ECISS/TC 15 and 30
FR
Steels or pressure purposes
ECISS/TC 22
DE
Electrical steel sheet and strip
ECISS/TC 24
DE
Coated and uncoated lat products or cold working and construction
ECISS/TC 13, 26, 27 (+SC 1)
FR
Tubes
ECISS/TC 29 + SCs
IT
Castings and Forgings
ECISS/TC 31 + ECISS/TC 28
FR
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International oil & gas standards available and active material standards committees
– EFC standards work Te European Federation o Corrosion (EFC) is a voluntary voluntar y association o non-prot-making non-prot-making scientic and technical societies and association. a ssociation. Te purpose o the Federation is to contribute to the general advancemen a dvancementt o the science o corrosion and o the protection o materials by promoting cooperation cooperation in Europe between between scientic and technical technical societies and associations devoted to these areas o activity and by collaborating with similar associations throughout the world. EFC has a cooperation agreement agreement with NACE. EFC organises organi ses an annual an nual corrosion conerence, conerence, EUROCORR, EUROCORR , somewhere in Europe. EFC has published two standards used by the European oil & gas industry: EFC 6 Corrosion Resistant Alloys or Oil & Gas Production: Production: Guidance on General Requirements and est Methods or H S Service Ser vice (EFC 7, 7, nd Edition) May . . A revised and updated set o guidelines applicable to stainless steels, nickel alloys and titanium alloys al loys covering: SSC/SCC test procedures; reerence reerence environments or SSC and SCC testing; guidance on autoclave testing o CRAs; procedures or testing CRAs exposed to sulphur and H S. EFC 7 Materials Requirements or Carbon and Low Alloy A lloy Steels or H S-Containing nd Environments in Oil & Ga s Production (EFC 6, 6, Edition) March . Tis is a revised and updated version o an EFC report on the possible types o H S cracking that can occur in an oileld. It covers all items o equipment used, rom the well to the export pipelines and also recommends test methods or evaluating materials perormance. A key reerence reerence document or materials engineers and product suppliers working in the oi l & gas ga s industry. However, However, the new parts pa rts o ISO 5 556 standards are a re now taking tak ing over as reerence reerence or the sub ject. •
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– EEMUA Materials technology committee (MC) 12.1 General introduction to EEMUA
EEMUA (Engineering Equipmen E quipmentt & Materials Materia ls Users’ Association) was ounded in 83 by amalgamating amalga mating the Engineering Engi neering Equipment Users Association (EEUA) (EEUA) ounded in 5 with the Oil Companies Materials Materia ls Association (OCMA), also ounded in the t he early 5s. EEMUA has its head ofce in London and most o its members are British companies. EEMUA’s EEMUA’s mission is to improve quality and saety, and to reduce the cost o operating industrial acilities by sharing experience and expertise, and by the active, enlightened promotion o the distinct interests o engineering users. Tis mission is achieved ach ieved by: Providing the organisation within which networking, inormation sharing and collaboration among users on non-competitive non-competitive technical matters can take place Inuencing the way written regulations are i nterpreted nterpreted and applied in practice Promoting and presenting presenting the users’ views, a nd encouraging the application o good sound engineering practice Developing and publishing user standards, specications, and training materials Facilitating members’ participation in national, European a nd international international standards sta ndards making Inuencing relevant national and European legislation and regulations. One o the EEMUA EE MUA committees ocus on Material echnology (EEMUA (EE MUA MC) MC) •
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12.2 Relevant EEMUA Publications 144:87 145:87 146:87 149:97 158:94 176:98 179:96 194:04 197:99 203:04
204:05
6
/ Copper Nickel Alloy Piping or Oshore Applications – Specication: / ubes Seamless and Welded / / Copper Nickel Alloy Piping or Oshore Applications – Specication: Flanges Composite and Solid / / Copper Nickel Alloy Piping or Oshore Applications – Specication: Fittings Code o Practice or the Identication and Checking o Materials Material s o Construction in Pressure Systems in Process Plants Construction Specication or Fixed Oshore Structures in the t he North Sea Specication or Structural Castings or Use Oshore A Working Guide or Carbon Steel Equipment in Wet H S Service Guidelines or Materials Material s Selection and Corrosion Control or Subsea Oil & Gas Production Equipment Equipment Specication or the Fabrication o Non-Primar Non-Primaryy Structural Steelwork or Oshore Installations Guide to the Application o ISO 383 Parts (6) and 3 () Petroleum and Natural Gas Industries – Steel Pipes or Pipelines – echnical Delivery Conditions Piping and the European Pressure Equipment Equipment Directive: Guidance or Plant Owners/Operators
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International oil & gas standards available and active material standards committees
3 – NACE standards committees Since 3 NACE NACE have been dedicated to a single mission mi ssion – to protect people, assets, and a nd environment environment rom the eects eect s o corrosion. NACE have members members in countries. Built Bui lt upon decades o knowledge and expertise rom rom dedicated members all around the world, NACE International is involved in every ever y industry and a nd area o corrosion prevention and control, rom chemical processing and water systems to transportation and inrastructure i nrastructure protection. NACE International is a track to the corrosion engineering and science community, community, and is recognised around the world as an a n authority or corrosion control solutions. solutions. NACE NACE International serves ser ves its members by: Setting standards or the corrosion industry Disseminating the latest technology worldwide through peer-reviewed peer-reviewed journals and a nd technical papers Hosting and managing managi ng the most important international conerences, exhibits and topical meetings in the corrosion industry Recognising distinguished disti nguished achievement in corrosion through the presentation presentation o wellrespected awards Linking you to colleagues and important career inormation Enhancing programs, services and connections with the corporate community Promoting the interests o the corrosion science and engineering industry through government relation activities in Washington, D.C. Te consequences consequences o sudden ailures o metallic metall ic components components used in the oil & gas eld, and associated with their exposure to H S-containing production uids, led to the preparation o the rst edition o NACE Standard MR75. MR75. Tis standard sta ndard was published in 75 75 by the National Association o Corrosion Engineers, now known as NACE NACE International. •
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In separate developments, the European Federation o Corrosion issued EFC Publication 6 in 5 and EFC Publication 7 in 6. Tese documents are generally complementary complementary to those o NACE though they dier in scope and detail. With the cooperation cooperation o NACE NACE and EFC, ISO/C 67 ormed Working Working Group 7 to prepare prepare ISO 556. Te Working Group are to promote the collection, review and, where appropriate, publication o eld experience and laboratory test data related to t he cracking resistance o metallic materials in H S-containing environments. NACE MR75/ISO 556 utilises the above sources to provide requirements and recommendations recommendations or materials materia ls qualication qual ication and selection or sae application in environments containing containing wet H S in oil & gas production systems. Four echnical Corrigenda (addenda) providing revisions to NACE MR75/ISO 556, are the results o ballot items approved during and 5. Te ISO Maintenance Panel is the group responsible or interpretations and ballots ba llots or change related to NACE NACE MR75/ISO MR75/ISO 556. Tis group reports up through ISO C 67 WG7.
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NACE NACE Specic echnology Group (SG) 3 is the committee responsible or Oil Oi l & Gas Production Metallurgy. Under this SG, S G, there are several ask Groups and echnology echnology Exchange Groups. Relevant task groups are as ollows: . G – NACE MR75/ISO 556: Oversight o Maintenance Panel. Assignment: Review and vote on revisions or addenda proposed or NACE MR75/ISO 556, and technical reports or other data published by the maintenance panel. . G 38 – Welding and Fabrication o Corrosion-Resistant Corrosion-Resistant Alloys Al loys (CRAs) – Corrosion Issues in Oil & Gas Production. Assignment: Produce a state-o-the-art state-o-the-art technical committee report reviewing current cur rent corrosion corrosion issues related to the welding, abrication, and assessment o corrosion-resistant corrosion-resistant alloys (CRAs) or successul operation in oil & gas production environments environments with specic consideration consideration o corrosion corrosion and environmentally environmentally assisted cracking.
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International oil & gas standards available and active material standards committees
– NOR NORSOK standards committee – Standards Norway Te NORSOK standards are developed by the Norwegian Norwegia n petroleum industry to ensure adequate saety, value adding addi ng and cost eectiveness –or petroleum industry developments developments and operations. Furthermore, NORSOK standards are as a s ar as a s possible intended to replace oil company specications and serve as reerences in the authorities regulations. Te NORSOK standards are normally based on recognised international standards, adding the provisions deemed necessary necessary to ll l l the broad needs o the Norwegian Norwegia n petroleum industry. Where relevant NORSOK standards will be used to provide the Norwegia Norwegiann industry input to to the international standardisation standardi sation process. Subject to development development and publication o i nternational standards, the relevant NORSOK standard will be withdrawn. Te NORSOK standards are developed according to the consensus principle generally applicable standards work and according to established procedures dened in NORSOK A– . Te NORSOK standards are prepared and a nd published with support by OLF (Te Norwegian Oil Industry Association) and BL (Federation o Norwegian Norwegian Manuacturing Industries I ndustries). ). NORSOK standards are now administered admi nistered and published by SN (Standards Norway). Norway). Expert Group Materials Material s (SN/K/EgM) (SN/K/EgM) is active, meets regularly reg ularly and is responsible or the publication and maintenance o ollowing ollowing NORSOK standards: M–001 M–101 M–102 M–120 M–121 M–122 M–123 M–501 M–503 M–506 M–601 M–622 M–630 M–650 M–710
Materials selection (Rev. , August ) Structural steel abrication (Rev. , Dec. ) Structural aluminium abrication a brication (Rev. (Rev. , Sept. 7) Material data sheets or structural steel (Rev. 5, Nov. Nov. 8) Aluminium structural material (Rev. , Sept. 7) Cast structural structura l steel (Rev. , June 3) 3) Forged structural steel (Rev. , June 3) Surace preparation and protective coating (Rev. 5, June ) Cathodic protection (Rev. (Rev. 3, May 7) 7) CO corrosion rate calculation model (Rev. , , June 5) Welding Welding and inspection o piping piping (Rev. 5, April 8) Fabrication and installation o GRP piping systems (Rev April 5) Material data sheets or piping (Rev. , January ) Qualication o manuacturers o special materials (Rev. 3, April ) Qualication o non-metallic sealing materials and manuacturers (Rev. , Oct. )
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5 – OGP Materials Materia ls Subcommittee Subcommittee Tis committee was established aer the OGP workshop in 7 with the ollowing terms o reerence: a. o arrange or global networking o the materials technology specialists rom within the OGP membership. b. Share experience and company/project company/project specications and seek harmonisation ha rmonisation at the level o international standards or the benet o members and industry. c. o evaluate and monitor material standards, sta ndards, including codes or g uidelines and to identiy those which are out o date or inadequate i nadequate and need revision, and identiy those areas in which new standards may be be required, but do not not presently presently exist. d. o support ISO/C 67/WG8 67/WG8 and other relevant materials related international standards work groups or or developing work. work. e. Assist OGP Standards Sta ndards Committee with executing its terms o reerence within the eld o materials.
3
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International oil & gas standards available and active material standards committees
6 – WI standards activities activities Te Welding Welding Institute, Cambridge, UK U K plays a key role in the development development o many standards which are important to the oil, gas and chemicals industries and is represen represented ted on the ollowollowing committees: Welding Welding (several (several working groups and subcommittees) subcommittees) TC54 Pressure vessels TC249/SC5 Welding Welding o thermoplastic materials materials esting o welds and a nd welding quality qualit y ISO TC44 TC67/SC2/WG8 Welding Welding o pipelines TC67/SC7/WG3 Oshore tubular structures EFC Oil & Gas and Renery Working Parties Oil & Gas Production – Metallurgy NACE STG32 STG34 Petroleum Petroleum Rening and Gas Processing TG299 Materials or use in H S containing environments in oil & gas production CEN
TC121
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7 – Company specication All o the international operators have their own in-house technical specications in order to speciy exactly what is considered required or their plants, installations and operations. Tese specications (requently (requently called company standards, design & engineering practices, best practices, supplementary supplementary technical specications etc ) also carry their operator’s valuable experience and they may be supplemented supplemented by individual project specications to cover specic project needs. Tese documents are normal ly based on, but include various degrees o supplements and amendments amendments to international, national and industry standards. At the workshop in February 7 7,, the operating companies present agreed to share their specications in the OGP environment, or review by the other participants par ticipants to see i there was scope or harmonisation, standardisation standardisation or improvement improvement in some areas. Te operating company technical specications are made available avai lable at a password pass word protected protected OGP website or inormation and review by the OGP Materials Subcommittee.
8 – Observations and comments Observation, comments or other input to this report are welcome to be sent to OGP, London by email to
[email protected] or consideration consideration o the OGP Materials Materia ls Sub-committee or the revision o this report.
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International oil & gas standards available and active material standards committees
What is OGP?
Te International Association o Oil & Gas Producers encompasses encompasses the world’s leading private and state-owned state-owned oil & gas companies, their national and regional associations, and major upstream contractors and suppliers. Vision •
o work on behal behal o the world’s oil & gas producing companies to promote responsible responsible and protable operations
Mission •
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o represent the interests o oil & gas producing companies to internation i nternational al regulators reg ulators and legislative bodies o liaise with other industry associations globally and provide a orum or sharing experiences, debating emerging issues and establishing common ground to promote promote cooperation, consistency and eectiveness o acilitate acil itate continuous continuous improvement improvement in HSE, HSE , CSR, CSR , engineering and a nd operations
Objectives •
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o improve understanding o our industry by being visible, accessible and a reliable source o inormation o represent and advocate industry views v iews by developing eective proposals o improve the collection, analysis and a nd dissemination o data on HSE perormance per ormance o develop and disseminate best practice in i n HSE, engineering and operations o promote CSR awareness and best practice
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209-215 Blackfriars Road London SE1 8NL United Kingdom Telephone: +44 (0)20 7633 0272 Fax: +44 (0)20 7633 2350 165 Bd du Souverain 4th Floor B-1160 Brussels, Belgium Telephone: +32 (0)2 566 9150 Fax: +32 (0)2 566 9159 Internet site: www.ogp.org.uk www.ogp.org.uk e-mail:
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