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GB/T 20972.3-2025 English PDF

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GB/T 20972.3-2025: Petroleum and natural gas industries - Materials for use in H2S-containing environments in oil and gas production - Part 3: Cracking-resistant CRAs(corrosion-resistant alloys) and other alloys
Status: Valid

GB/T 20972.3: Evolution and historical versions

Standard IDContents [version]USDSTEP2[PDF] delivered inStandard Title (Description)StatusPDF
GB/T 20972.3-2025English1559 Add to Cart 9 days [Need to translate] Petroleum and natural gas industries - Materials for use in H2S-containing environments in oil and gas production - Part 3: Cracking-resistant CRAs(corrosion-resistant alloys) and other alloys Valid GB/T 20972.3-2025
GB/T 20972.3-2008English1369 Add to Cart 10 days [Need to translate] Petroleum and natural gas industries -- Material for use in H2S-containing environments in oil and gas production -- Part 3: Cracking-resistant CRAs (corrosion-resistant alloys) and other alloys Valid GB/T 20972.3-2008

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Basic data

Standard ID GB/T 20972.3-2025 (GB/T20972.3-2025)
Description (Translated English) Petroleum and natural gas industries - Materials for use in H2S-containing environments in oil and gas production - Part 3: Cracking-resistant CRAs(corrosion-resistant alloys) and other alloys
Sector / Industry National Standard (Recommended)
Classification of Chinese Standard E10
Classification of International Standard 75.180.01
Word Count Estimation 78,710
Date of Issue 2025-01-24
Date of Implementation 2025-08-01
Issuing agency(ies) State Administration for Market Regulation, China National Standardization Administration

GB/T 20972.3-2025: Petroleum and natural gas industries - Materials for use in H2S-containing environments in oil and gas production - Part 3: Cracking-resistant CRAs(corrosion-resistant alloys) and other alloys



---This is a DRAFT version for illustration, not a final translation. Full copy of true-PDF in English version (including equations, symbols, images, flow-chart, tables, and figures etc.) will be manually/carefully translated upon your order.
ICS 75.180.01 CCSE10 National Standard of the People's Republic of China Replaces GB/T 20972.3-2008 Oil and gas industry oil and gas production Materials for use in environments containing hydrogen sulfide Part 3.Cracking and corrosion resistant alloys and other alloys (ISO 15156-3.2020,MOD) Published on January 24, 2025, implemented on August 1, 2025 State Administration for Market Regulation The National Standardization Administration issued

Table of Contents

Preface III Introduction V 1 Scope 1 2 Normative references 1 3 Terms and Definitions 2 4 Abbreviations 3 5 Factors affecting crack resistance 3 6 Evaluation and selection of corrosion resistant alloys and other alloys for SSC, SCC and GHSC 3 6.1 General 3 6.2 Evaluation of material properties 5 6.3 PREN 6 7 Purchasing Information and Marking 6 7.1 Information to be provided for material procurement 6 7.2 Mark 7 Appendix A (Informative) Technical differences between this document and ISO 15156-3.2020 and their reasons 8 Appendix B (normative) Corrosion-resistant alloys and other alloys that resist cracking 11 Appendix C (Normative) Laboratory test evaluation of corrosion-resistant alloys for hydrogen sulfide environments 43 Appendix D (Informative) Information Suggestions for Purchasing Materials 50 Appendix E (Informative) Recommended Combinations of Test Conditions 52 Appendix F (Informative) Material Chemical Composition and Other Information 53 References 67

Foreword

This document is in accordance with the provisions of GB/T 1.1-2020 "Guidelines for standardization work Part 1.Structure and drafting rules for standardization documents" Drafting. This document is Part 3 of GB/T 20972 "Materials for use in hydrogen sulfide environments in oil and gas production in the petroleum and natural gas industry". GB/T 20972 has published the following parts. --- Part 1.General principles for selecting crack-resistant materials; --- Part 2.Cracking resistant carbon steel, low alloy steel and cast iron; --- Part 3.Cracking and corrosion resistant alloys and other alloys. This document replaces GB/T 20972.3-2008 "Materials for use in hydrogen sulfide environments in oil and gas production in the petroleum and natural gas industry Part 3 Part 2.Cracking and Corrosion Resistant Alloys and Other Alloys. Compared with GB/T 20972.3-2008, in addition to structural adjustments and editorial changes, the main changes are The technical changes are as follows. a) The scope of application of this document has been changed (see Chapter 1, Chapter 1 of the.2008 edition); b) Added the term and definition of "double brand" (see 3.4); c) The environmental and material restrictions for austenitic stainless steel used as any equipment or component have been changed (see Table B.2, Table A.2 of the.2008 edition); d) The application environment and material restriction requirements of UNSS20910 have been changed (see Table B.3, Table A.3 of the.2008 edition); e) Added material group 4f of solid solution nickel-based alloy and its restriction requirements (see Table B.12 and Table B.13); f) Changed the application environment and material restriction requirements for martensitic stainless steel (see Table B.18, Table B.19, Table B.23 and Table B.27,.2008 Tables A.18, A.19, A.23 and A.27 of the.2014 edition); g) The environmental and material restrictions for duplex stainless steel used as any equipment or component have been changed (see Table B.24, Table A.24 of the.2008 edition); h) Changed the environmental and material restrictions for precipitation-hardened nickel-based alloys used in any equipment or components (see Table B.32 and Table B.33, Table A.32 and Table A.33 of the.2008 edition); i) The application environment and material restriction requirements for cobalt-based alloys have been changed (see Table B.40, Table A.40 of the.2008 edition); j) Changed the environmental and material restriction requirements for titanium alloys used as any equipment or components (see Table B.41, Table A.41 of the.2008 edition); k) Added the sampling and analysis requirements for the chemical composition of corrosion-resistant alloy cladding layers (see B.13.2). This document is modified to adopt ISO 15156-3.2020 "Materials for use in hydrogen sulfide environments in oil and gas production in the petroleum and natural gas industry" Part 3.Cracking and corrosion resistant alloys and other alloys. This document has the following structural adjustments compared to ISO 15156-3.2020. --- Added Appendix A; --- Appendix B corresponds to Appendix A in ISO 15156-3.2020; --- Appendix C corresponds to Appendix B in ISO 15156-3.2020; --- Appendix D corresponds to Appendix C in ISO 15156-3.2020; --- Appendix E corresponds to Appendix D in ISO 15156-3.2020; --- Added Appendix F. This document has many technical differences compared to ISO 15156-3.2020. A list of these technical differences and their reasons is given in Appendix A. The following editorial changes were made to this document. --- Added notes on the interpretation of stainless steel terms (see 3.12); --- Added notes on the explanation of the production environment (see 6.1); --- Deleted the note in the ISO 15156-3.2020 hardness test method requirements (see 6.2.2.2.2); --- Deleted the note of ISO 15156-3.2020A.13 (see B.13); --- Added the technical requirement of "specific components should be evaluated and determined" when using martensitic stainless steel (see Table B.23 Note); --- Footnote b of Table A.24 of ISO 15156-3.2020 is deleted and used as the content of the middle section of the table (see Table B.24). --- Deleted footnote c and note in Figure B.1 of ISO 15156-3.2020 (see Figure C.1); --- Changed the tensile test execution standard in ISO 15156-3.2020B.3.4 (see C.3.4); --- Changed the implementation standard of Note 2 in ISO 15156-3.2020B.3.5.1 (see C.3.5.1); --- Deleted footnote e in Table C.1 of ISO 15156-3.2020 (see Table D.1); --- Deleted footnote b in Table C.2 of ISO 15156-3.2020, and changed the implementation standard for the description of the use environment in Table C.2 (see Table D.2); --- Added informative Appendix A "Structural adjustments and technical differences between this document and ISO 15156-3.2020 and their reasons" (see Appendix A); --- Added informative Appendix F "Chemical composition and other information of materials", which mainly involves the chemical composition and other information of materials. For user use (see Appendix F). Please note that some of the contents of this document may involve patents. The issuing organization of this document does not assume the responsibility for identifying patents. This document was proposed and coordinated by the National Technical Committee for Standardization of Petroleum Drilling Equipment and Tools (SAC/TC96). This document was drafted by. China Petroleum Engineering and Construction Co., Ltd. Southwest Branch, China National Petroleum Corporation Southwest Oil and Gas China National Petroleum Corporation Engineering Materials Research Institute Co., Ltd., China Petrochemical Corporation Zhongyuan Oilfield Branch, Baoshan Steel Co., Ltd., Baoyi Group Co., Ltd., and Jianhu County Hongda Valve and Pipe Fittings Co., Ltd. The main drafters of this document are. Wang Fei, Li Ke, Li Tianlei, Cao Xiaoyan, Bai Zhenquan, Wen Shaomu, Shi Daiyan, Zhang Cheng, Zhang Chunxia, Wang Yaxi, Chen Junwen, Yan Jing, Zhang Zhonghua, Li Mingguo, Zhang Xiaoxia, Xian Ning, Chen Yongbin, Wu Qichun, Song Chengli, Wang Xiaoxing, Cui Lei. This document was first published in.2008 and this is the first revision.

Introduction

Sulfide stress cracking and stress corrosion cracking are dangerous failure forms in the production of hydrogen sulfide oil and gas. Equipment materials may crack rapidly and unpredictably, causing great loss of life and property. The purpose of this standard is to standardize the crack resistance of materials used in hydrogen sulfide environments in oil and gas production. The material evaluation, selection and application requirements were formulated with reference to ISO 15156 and other relevant domestic and foreign standards, and also absorbed the recent developments in acidic oil The research results and practical experience of basic research on gas field engineering applications and technical standards are planned to be composed of three parts. --- Part 1.General principles for selecting crack-resistant materials. The purpose is to establish general principles for service environment definition, material evaluation and selection. in principle. --- Part 2.Cracking resistant carbon steel, low alloy steel and cast iron. The purpose is to establish the selection, assessment and Requirements for use, and requirements for use of cast iron. --- Part 3.Cracking and corrosion resistant alloys and other alloys. The purpose is to establish the selection, evaluation and Standard and use requirements, including austenitic stainless steel, martensitic stainless steel, ferritic stainless steel, duplex stainless steel, nickel-based alloys, titanium alloys Jin et al. Oil and gas industry oil and gas production Materials for use in environments containing hydrogen sulfide Part 3.Cracking and corrosion resistant alloys and other alloys

1 Scope

This document specifies the corrosion resistant alloys (CRA) and other alloys for equipment in hydrogen sulfide (H2S) environments in oil and gas production and natural gas processing plants. Requirements and practices for the selection and evaluation of metal crack resistance materials. This document applies to the selection and assessment of crack-resistant materials for equipment designed and manufactured using load-controlled design methods. Note 1.Cracking includes sulfide stress cracking (SSC), stress corrosion cracking (SCC) and galvanic hydrogen stress cracking (GHSC), but does not include uniform corrosion, local Corrosion and corrosion fatigue. NOTE 2.Corrosion-resistant alloys and other alloys selected in accordance with this document are resistant to cracking in hydrogen sulfide environments in oil and gas production that meet the requirements of this document, but Cracking cannot be avoided in all usage environments.

2 Normative references

The contents of the following documents constitute the essential clauses of this document through normative references in this document. For referenced documents without a date, only the version corresponding to that date applies to this document; for referenced documents without a date, the latest version (including all amendments) applies to This document. GB/T 228.1 Tensile tests on metallic materials - Part 1.Test methods at room temperature (GB/T 228.1-2021, ISO 6892-1. 2019,MOD) GB/T 230.1 Rockwell hardness test for metallic materials Part 1.Test method (GB/T 230.1-2018, ISO 6508-1. 2016,MOD) GB/T 1954 Method for measuring ferrite content in chromium-nickel austenitic stainless steel welds GB/T 4157 Laboratory test method for resistance of metals to sulfide stress cracking and stress corrosion cracking in hydrogen sulfide environments GB/T 4340.1 Metallic materials Vickers hardness test Part 1.Test method (GB/T 4340.1-2024, ISO 6507- 1.2023,MOD) GB/T 8170 Rules for rounding off values and expression and determination of limit values GB/T 15970.7 Corrosion of metals and alloys - Stress corrosion testing - Part 7.Slow strain rate test GB/T 19830 Steel pipes for oil and gas well casing or tubing in petroleum and natural gas industries (GB/T 19830-2023, ISO 11960. 2020,MOD) GB/T 20972.1 Petroleum and natural gas industry Materials for use in hydrogen sulfide environments in oil and gas production Part 1.Selective crack resistance General principles for materials (GB/T 20972.1-2007, ISO 15156-1.2020, MOD) GB/T 20972.2 Petroleum and natural gas industry Materials for use in hydrogen sulfide environments in oil and gas production Part 2.Cracking-resistant carbon Steel, low alloy steel and cast iron (GB/T 20972.2-2025, ISO 15156-2.2020, MOD) GB/T 22513 Wellhead equipment and Christmas trees for petroleum and natural gas drilling equipment HB/Z26 Shot Peening Process for Aviation Parts ISO 15614-7 Specification and qualification of welding procedures for metallic materials — Welding procedure tests — Part 7.Overlay welding welding

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