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GB/T 150.2-2024 English PDF (GB 150.2-2011)

GB/T 150.2-2024_English: PDF (GB/T150.2-2024)
Standard IDContents [version]USDSTEP2[PDF] delivered inStandard Title (Description)StatusPDF
GB/T 150.2-2024English740 Add to Cart 0--9 seconds. Auto-delivery Pressure vessels - Part 2:Materials Valid GB/T 150.2-2024
GB 150.2-2011English195 Add to Cart 0--9 seconds. Auto-delivery [GB/T 150.2-2011] Pressure vessels -- Part 2: Materials [including Amendment XG1] Valid GB 150.2-2011


BASIC DATA
Standard ID GB/T 150.2-2024 (GB/T150.2-2024)
Description (Translated English) Pressure vessels - Part 2��Materials
Sector / Industry National Standard (Recommended)
Classification of Chinese Standard J74
Classification of International Standard 23.020.30
Word Count Estimation 76,726
Date of Issue 2024-07-24
Date of Implementation 2025-02-01
Older Standard (superseded by this standard) GB/T 150.2-2011
Administrative Organization National Technical Committee for Standardization of Boilers and Pressure Vessels (SAC/TC 262)
Proposing organization National Technical Committee for Standardization of Language and Terminology (SAC/TC 62)
Issuing agency(ies) State Administration for Market Regulation, National Standardization Administration

BASIC DATA
Standard ID GB 150.2-2011 (GB150.2-2011)
Description (Translated English) [GB/T 150.2-2011] Pressure vessels. Part 2: Materials [including Amendment XG1] [Quasi-Official / Academic version - scanned PDF, translated by Standard Committee / Research Institute in China]
Sector / Industry National Standard
Classification of Chinese Standard J74
Classification of International Standard 23.020.30
Word Count Estimation 53,563
Date of Issue 2011-11-21
Date of Implementation 2012-03-01
Older Standard (superseded by this standard) GB 150-1998 ial
Quoted Standard GB 150.1-2011; GB 150.3-2011; GB/T 228; GB/T 229; GB/T 699; GB 713; GB/T 1220; GB/T 1221; GB/T 3077; GB 3531; GB/T 4226; GB/T 4334; GB 5310; GB 6479-2000; GB/T 6803; GB/T 7735; GB/T 8163; GB 9948; GB/T 12771; GB 13296; GB/T 14976; GB 19189; GB/T 20878; GB/T 21832; GB/T 21833; GB 24511; GB/T 24593; NB/T 47002.1; NB/T 47002.2; NB/T 47002.3; NB/T 47002.4; NB/T 47008; NB/T 47009; NB/T 47010; JB/T 4730.3; JB/T 4756; TSG R0004; ISO 9328-2-2004
Drafting Organization Hefei General Machinery Research Institute
Administrative Organization National Standardization Technical Committee Boiler and Pressure Vessel
Regulation (derived from) National Standards Bulletin 2011 No. 18
Proposing organization China boiler pressure vessel Standardization Technical Committee (SAC/TC 262)
Issuing agency(ies) Administration of Quality Supervision, Inspection and Quarantine of People's Republic of China; Standardization Administration of China
Summary This Chinese standard applies to the pressure vessel steel pressure components which allow the use of steel and its standard, steel additional technical requirements, the use of steel (temperature and pressure) and the allowable stress. This standard applies to the design temperature -253��C ~ 800��C, the design pressure of not more than 35MPa pressure vessel. This standard does not apply to ranges: GB 150. 1 NA prescribed range, refrigeration, paper industry, container, glass-lined containers and simple pressure vessels, TSG R0004 specified in 1. 4 range.


GB/T 150.2-2024 GB NATIONAL STANDARD OF THE PEOPLE’S REPUBLIC OF CHINA ICS 23.020.30 CCS J 74 Replacing GB/T 150.2-2011 Pressure vessels - Part 2.Materials ISSUED ON. JULY 24, 2024 IMPLEMENTED ON. FEBRUARY 01, 2025 Issued by. State Administration for Market Regulation; National Standardization Administration. Table of Contents Foreword... 3 Introduction... 5 1 Scope... 7 2 Normative references... 7 3 Terms and definitions... 9 4 General requirements... 9 5 Steel plates... 17 6 Steel pipes... 24 7 Steel forgings... 30 8 Steel bars for studs (including bolts) and nuts... 33 9 Welding materials... 38 Appendix A (Normative) Supplementary provisions for steel... 40 Appendix B (Normative) Technical requirements that steel materials shall meet when included in this document... 43 Appendix C (Normative) Allowable stress... 48 Appendix D (Normative) Requirements for the use of Q235 series steel plates... 76 Appendix E (Informative) High-temperature yield strength, high-temperature endurance strength limit average value, elastic modulus, average linear expansion coefficient of steel materials... 78 Appendix F (Informative) Approximate comparison of high alloy steel designations 93 References... 95 Pressure vessels - Part 2.Materials 1 Scope This document specifies the designations and standards of steel materials allowed for pressure components of steel pressure vessels, additional technical requirements for steel materials, the use range of steel materials (temperature and pressure), the allowable stress of steel materials, the basic requirements for welding materials. This document is applicable to pressure vessels, which have a design temperature of - 269 °C ~ 800 °C and a design pressure not exceeding 35 MPa. This document does not apply to the inapplicable scope specified in GB/T 150.1. 2 Normative references The contents of the following documents constitute essential clauses of this document through normative references in the text. Among them, for referenced documents with dates, only the versions corresponding to the dates apply to this document; for referenced documents without dates, the latest versions (including all amendments) apply to this document. GB/T 150.1 Pressure vessels - Part 1.General requirements GB/T 150.3 Pressure vessels - Part 3.Design GB/T 228.1 Metallic materials - Tensile testing - Part 1.Method of test at room temperature GB/T 228.2 Metallic materials - Tensile testing - Part 2.Method of test at elevated temperature GB/T 229 Metallic materials - Charpy pendulum impact test method GB/T 699 Quality carbon structure steels GB/T 700 Carbon structural steels GB/T 709 Dimension, shape, weight and tolerance for hot-rolled steel strip, plate and sheet GB/T 713.7 Steel plate, sheet and strip for pressure equipments - Part 7.Stainless steel and heat resisting steel studs (including bolts) and welding materials for pressure vessels. 4.2 Steel for pressure vessels shall be steel with good weldability; the steel for non- pressure components welded to pressure components shall also be steel with good weldability. 4.3 Austenitic stainless steel that is not included in this document but is included in GB/T 20878 and GB/T 713.7 is allowed; however, its technical requirements (such as phosphorus and sulfur content, strength index) shall not be lower than the provisions of designations with similar chemical composition in the corresponding steel standards included in this document. 4.4 When steel materials not listed in this document are used (except steel materials that meet the requirements of 4.3), their technical requirements shall comply with the relevant provisions of Appendix A. 4.5 Steel materials used for pressure-bearing components of pressure vessels shall be accompanied by a steel quality certificate issued by the steel manufacturer. The contents of the quality certificate (including the heat treatment process parameters of the steel in the delivery state when necessary) shall be complete and clear, printed with traceable information identification, stamped with the quality inspection stamp of the material manufacturer. Traceable information includes the name of the steel manufacturer, steel standard number, designation, specification, furnace batch number, delivery state, heat treatment process parameters (when necessary), the date of issuance of the quality certificate. Traceable information markings include QR codes or bar codes, etc. 4.6 The vessel manufacturer shall inspect and accept the steel materials according to the quality certificate. If there is no original steel quality certificate issued by the steel manufacturer, the official seal of the material business organization and the signature (seal) of the person in charge shall be stamped on the copy of the original steel quality certificate. 4.7 The selection of steel for pressure vessel’s pressure components shall be determined based on the use conditions of the vessel (such as design temperature, design pressure, medium characteristics, operating characteristics, etc.), the chemical composition, microstructure, properties (mechanical properties, process properties, chemical properties, physical properties) of the steel, the manufacturing process of the vessel, the economic rationality. 4.8 Steel for pressure vessel’s pressure components shall be smelted in oxygen converter or electric furnace, or by electroslag remelting. For low alloy steel plates and low alloy steel forgings with a standard tensile strength lower limit greater than 540 MPa, austenite-ferrite stainless steel plates, low temperature steel plates, low temperature steel forgings, low temperature steel pipes with a use temperature below - 20 °C, out-of-furnace refining shall also be used. energy value and lateral expansion value of one standard specimen are allowed to be lower than the specified values in Table 1; however, it shall not be lower than 70% of the specified values in Table 1.When the impact test results do not meet the above requirements, 3 more standard specimens shall be taken from the same position and direction of the steel for re-testing. The average impact absorption energy and lateral expansion value of the two groups of 6 standard specimens shall not be lower than the specified values in Table 1.It is allowed that 2 standard specimens are lower than the specified values, but only 1 specimen is allowed to be lower than 70% of the specified values. c) When standard specimens cannot be prepared for steel (steel thickness is less than 11 mm), small-sized specimens with a thickness of 7.5 mm or 5 mm shall be prepared in turn. The average impact absorption energy value is 75% or 50% of the average impact absorption energy value of the standard specimen, respectively. The requirements for the impact absorption energy value of a single standard specimen shall comply with the provisions of 4.11b). When the steel can be prepared as standard specimens, small-size specimens with a thickness of 7.5 mm or 5 mm are prepared. The impact test temperature shall be reduced by 5 °C and 10 °C, respectively (except for steel with an impact test temperature below - 100 °C). The average impact absorption energy is 75% or 50% of the average impact absorption energy of the standard specimen, respectively. The requirements for the impact absorption energy value of a single standard specimen shall comply with the provisions of 4.11b). d) In the steel standard, if the average impact absorption energy and the average lateral expansion value of the steel are higher than those specified in Table 1, the average impact absorption energy and the average lateral expansion value shall also comply with the provisions of the corresponding steel standard. e) The lateral expansion value of the Charpy impact specimen is determined in accordance with the provisions of GB/T 229.The qualified index of the lateral expansion value of the impact specimen has nothing to do with the size of the impact specimen. f) For low alloy steel plates and forgings with impact test temperature of -40 °C ~ - 100 °C, the transformation temperature Tt can be determined according to GB/T 229 (such as. the transformation temperature Tt47 determined by the specified absorption energy value of 47 J, the transformation temperature Tt50%US determined by the specified absorption energy’s upper platform percentage of 50%, the transformation temperature Tt0.53 determined by the specified lateral expansion value of 0.53 mm, or the transformation temperature Tt50%SFA determined by the specified shear section rate of 50%). g) The impact test requirements of steel plates shall comply with the relevant provisions of Chapter 5.For Q245R, Q345R, 13MnNiMoR steel plates, if a - 4.18 of this document, it shall provide a specific description of the material selection that meets the basic safety requirements of TSG 21 in the design documents, including the mechanical properties, physical properties, process properties, compatibility with the medium, etc.; propose specific material ordering technical conditions; clarify the relevant technical requirements for pressure vessel manufacturing, use, inspection, etc.; be responsible for the design and material selection. 4.20 When steel that meets the provisions of 4.15, 4.16, 4.18 is selected for the main pressure-bearing components of the pressure vessel, the pressure vessel manufacturer shall conduct a verification re-inspection of its chemical composition (by furnace number) and mechanical properties (by batch number). After the re-inspection results are confirmed as qualified by the supervisory inspection agency, they can be put into use; the material re-inspection report shall be included in the product quality certification documents. 4.21 The technical requirements for the use of steel materials used in the main pressure components, which are included in this document but not included in the national standard for special steel plates for pressure vessels (pressure-bearing equipment), the industry standard for special forgings, the industry standard for special composite steel plates, the national standard or industry standard for steel pipes (except for steel materials that meet the requirements of 4.3), the use regulations of steel materials of foreign designations, shall be in accordance with the provisions of Appendix A. 4.22 The substitution of steel materials for pressure components by pressure vessel manufacturing or on-site welding organizations shall obtain written approval from the original design organization and make detailed records on the completion drawings. 4.23 The technical requirements that steel materials included in this document shall meet shall be in accordance with the provisions of Appendix B. 4.24 The allowable stress of each steel material shall be determined in accordance with TSG 21 and GB/T 150.1.The allowable stress of each steel material shall be in accordance with the provisions of Table C.1 ~ Table C.8.The allowable stress at the intermediate temperature of the allowable stress Table of each steel material can be obtained by interpolation. 4.25 The use requirements of Q235 series steel plates shall be in accordance with the provisions of Appendix D. 4.26 For the high temperature yield strength of steel, see Table E.1 ~ Table E.8 in Appendix E; for the average value of the high temperature endurance strength limit, see Table E.9 ~ Table E.12; for the elastic modulus, see Table E.13; for the average linear expansion coefficient, see Table E.14. 4.27 For the approximate comparison of high alloy steel designations, see Table F.1 in Appendix F. 5 Steel plates 5.1 Non-alloy steel and alloy steel plates 5.1.1 The service state, thickness, upper limit of service temperature, allowable stress of steel plates in GB/T 713.1, GB/T 713.2, GB/T 713.3, GB/T 713.4, GB/T 713.6 shall be in accordance with the provisions of Table C.1. 5.1.2 For all steel plates rolled from continuous casting billets or ingots in Table C.1, the compression ratio shall be not less than 3.0; for steel plates rolled from directional solidification billets, the compression ratio shall be not less than 2.4.The compression ratio of steel plates rolled from electroslag remelted steel billets shall not be less than 2.0. 5.1.3 The steel plates delivered by the steel plate manufacturer shall be supplied according to the use status in Table C.1. 5.1.4 The following non-alloy steel and low-alloy steel plates shall be used in the normalized state. a) Q245R, GB/SA516 Gr 485, Q345R used for the inner tube of multi-layer vessels; b) Q245R, GB/SA516 Gr 485, Q345R used for shell thickness greater than 36 mm; c) Q245R, GB/SA516 Gr 485, Q345R used for other pressure components (flanges, tube sheets, flat covers, etc.) with a thickness greater than 60 mm; d) For Q345R steel plates with a thickness greater than 50 mm, the normalized plus tempered state can replace the normalized state. 5.1.5 The following non-alloy steel and alloy steel plates shall be subjected to tensile and V-notch impact tests after heat treatment (impact test temperature shall comply with the corresponding steel plate standards). a) Quenched and tempered steel plates; b) Inner tube steel plates of multi-layer vessels; c) Steel plates with shell thickness greater than 60 mm. 5.1.6 For shell steel plates with a thickness greater than 36 mm in the quenched and tempered state and a thickness greater than 80 mm in the normalized or normalized plus tempered state, an additional set of impact tests may be added with samples taken at 1/2 of the thickness. The impact test temperature shall comply with the provisions of the corresponding steel plate standards; the impact performance index shall comply with the provisions of Table 1.If the impact performance index of the samples taken at 1/2 in GB/T 713.1, GB/T 713.2, GB/T 713.3, GB/T 713.4, GB/T 713.6 is higher than that 5.2.3 The delivery status of steel plates and strips shall comply with the corresponding provisions of GB/T 713.7.Ferritic stainless steel plates and strips shall be delivered in the annealed state; austenitic-ferritic stainless steel plates and strips and austenitic stainless steel plates and strips shall be delivered in the solution heat treated state. 5.2.4 The dimensional accuracy of hot-rolled thick steel plates, hot-rolled steel plates, steel strips in GB/T 713.7 is divided into two levels. ordinary thickness accuracy (code PT.A) and higher thickness accuracy (code PT.B). The steel plates and steel strips for pressure vessels should adopt ordinary thickness accuracy. If higher thickness accuracy is required, it shall be indicated in the design documents. 5.2.5 The surface processing types of steel plates in GB/T 713.7 are divided into 1E (hot rolling, heat treatment, mechanical descaling) and 1D (hot rolling, heat treatment, pickling); cold-rolled products are divided into 2D (cold rolling, heat treatment, pickling or descaling), 2B (cold rolling, heat treatment, pickling or descaling, bright processing), BA (cold rolling, bright annealing). The surface processing type of steel plates shall be indicated in the design documents. Hot-rolled products of pressure vessel’s steel plates should adopt 1D; cold-rolled products should adopt 2B. 5.2.6 Austenitic stainless steel plates and austenitic-ferritic stainless steel plates used in corrosive environments shall be subjected to intergranular corrosion tests according to GB/T 4334 or GB/T 21433; ferritic stainless steel plates shall be subjected to intergranular corrosion tests according to GB/T 31935 or GB/T 32571.The evaluation index shall be specified in the design documents. 5.2.7 When the use temperature is higher than 600 °C, the stainless steel plates with the unified digital code S30409, S31609, S32169, S34779 shall be subjected to grain size inspection according to GB/T 6394; the average grain size grade shall be grades 3 ~ 7. 5.2.8 The impact test results of austenitic-ferritic stainless steel plates shall be in accordance with the provisions of 4.10b). The impact test results of austenitic stainless steel plates shall be in accordance with the provisions of GB/T 713.7 and 4.10b) and 4.10c). Other requirements for impact test shall be in accordance with the provisions of 4.11b) and 4.11c). 5.2.9 For steel plates used for shells, the lower limit of the use temperature shall be in accordance with the following provisions. a) 0 °C for ferritic stainless steel plates; b) -40 °C for austenitic-ferritic stainless steel plates; c) -269 °C for austenitic stainless steel plates. 5.2.10 The design documents may propose the requirement of additional inspection Rp1.0 for austenitic stainless steel plates in accordance with GB/T 713.7; determine the allowable stress of the steel plates in accordance with the provisions of GB/T 150.1 b) The grade of titanium-steel composite plates shall be 1 or 2; the unbonded rate shall not be greater than 2%. The grade of titanium-steel composite plates shall be indicated in the design documents; c) The lower limit of the use temperature of titanium-steel composite plates shall comply with the provisions of 4.9 for base materials; the upper limit of the use temperature is 350 °C; d) The bonding shear strength of the composite interface of titanium-steel composite plates shall not be less than 140 MPa. 5.3.4 Copper-steel composite plates shall comply with the following provisions. a) The technical requirements of copper-steel composite plates shall comply with the provisions of NB/T 47002.4; b) The grade of copper-steel composite plates shall be 1 or 2; the unbonded rate shall not be greater than 2%. The grade of copper-steel composite plates shall be indicated in the design documents; c) The lower limit of the use temperature of copper-steel composite plates shall comply with the provisions of 4.9 for substrates; the upper limit of the use temperature is 200 °C; d) The bonding shear strength of the composite interface of copper-steel composite plates shall not be less than 100 MPa. 6 Steel pipes 6.1 Non-alloy steel and alloy steel pipes 6.1.1 Steel pipe standards, use states, wall thickness, upper limit of use temperature, allowable stress shall be in accordance with the provisions of Table C.3.For steel pipes which have a wall thickness greater than 30 mm and a use temperature below -20 °C, the normalizing in the Table shall not be replaced by hot rolling with a final rolling temperature that meets the normalizing temperature. 6.1.2 The steel used for steel pipes, which have a design temperature below -20 °C in Table C.3, shall be refined in an electric arc furnace or oxygen converter and subjected to vacuum refining, or smelted by electroslag remelting. 6.1.3 The use requirements of 10, 20, Q345D steel pipes in GB/T 8163 are as follows. a) Steel used for steel pipes shall be refined in an electric arc furnace or oxygen converter and subjected to vacuum refining. b) It shall not be used for heat exchange tubes of shell and tube heat exchangers. c) The sulfur content in the steel shall not exceed 0.020%. d) The design pressure shall not exceed 4.0 MPa. e) The 10, 20, Q345D steel pipes, which have an outer diameter of not less than 76 mm and a wall thickness of not less than 6.5 mm, shall be subjected to longitudinal impact test. The impact test temperature is -10 °C, 0 °C, -20 °C, respectively. The average impact absorption energy of three standard specimens shall not be less than 34J, 34J, 41J, respectively. The minimum value of one standard specimen and the impact absorption energy index of small-sized specimens shall be in accordance with the provisions of 4.11b) and 4.11c). The impact specimen shall preferably be a larger-sized specimen. f) The lower limit of the use temperature of 10, 20, Q345D steel pipes is -10 °C, 0 °C, -20 °C, respectively. g) The wall thickness of 10 and 20 steel pipes shall not exceed 10 mm; the wall thickness of Q345D steel pipe shall not exceed 16 mm. h) It shall not be used for media with extremely or highly toxic hazard. i) Steel pipes shall be subjected to hydraulic test one by one. With the agreement between the supplier and the buyer, the eddy current test of steel pipes (one by one) can be carried out in accordance with GB/T 7735-2016 instead of the hydraulic test. The artificial defects of the comparison sample pipes shall comply with the provisions of the acceptance level E4H or E4, E5 in GB/T 7735-2016. 6.1.4 The use requirements of various designations of steel pipes in GB/T 6479 are as follows. a) Steel for steel pipes shall be refined in an electric arc furnace or oxygen converter, then vacuum refined or smelted by electroslag remelting; b) The 10, 20, Q345D, Q345E steel pipes, which have an outer diameter of not less than 76 mm and a wall thickness of not less than 6.5 mm, shall be subjected to longitudinal impact tests at -10 °C, 0 °C, -20 °C, -40 °C, respectively. The average impact absorption energy of the three standard specimens shall not be less than 40J, 40J, 41J, 47J, respectively. The minimum value of one specimen and the impact absorption energy index of the small-sized specimen shall be in accordance with the provisions of 4.11b) and 4.11c). The impact specimen shall preferably be a larger-sized specimen; c) The lower limit of the use temperature of 10, 20, Q345D, Q345E steel pipes is - 10 °C, 0 °C, -20 °C, -40 °C respectively; d) The supplier and the buyer agree that 10 and 20 steel pipes can be subjected to - 20 °C longitudinal impact test; the average impact absorption energy of 3 standard specimens is not less than 40 J. At this time, the lower limit of the use temperature of 10 and 20 steel pipes is -20 °C; e) The 12CrMo, 15CrMo, 12Cr2Mo, 12Cr5Mo steel pipes which have an outer diameter of not less than 76 mm and a wall thickness of not less than 6.5 mm shall be subjected to 20 °C longitudinal impact test; the average impact absorption energy of 3 standard specimens shall be not less than 47J, 47J, 60J, 47J respectively. The minimum value of 1 standard specimen and the impact absorption energy index of small-sized specimens shall be in accordance with the provisions of 4.11b) and 4.11c). The impact specimen shall be preferably a larger- sized specimen; f) Steel pipes shall be subjected to hydraulic test one by one. With the agreement between the supplier and the buyer, the eddy current test of steel pipes (one by one) can be carried out in accordance with GB/T 7735-2016, instead of the hydraulic test. The artificial defects of the comparison sample pipes shall comply with the provisions of the acceptance level E4H or E4, E5 in GB/T 7735-2016. 6.1.5 The use requirements of various designations of steel pipes in GB/T 9948 are as follows. a) Steel for steel pipes shall be refined in an electric arc furnace or oxygen converter and then vacuum refined, or smelted by electroslag remelting; b) The 10 and 20 steel pipes which have an outer diameter of not less than 76 mm and a wall thickness of not less than 6.5 mm shall be subjected to longitudinal impact tests. The impact test temperatures are -20 °C and 0 °C, respectively. The average impact absorption energy of 3 standard specimens is not less than 40J. The minimum value of 1 standard specimen and the impact absorption energy index of small-sized specimens shall be in accordance with the provisions of 4.11b) and 4.11c). Impact specimens shall preferably be larger-sized specimens; c) The lower limit of the use temperature of 10 and 20 steel pipes is -20 °C and 0 °C, respectively; d) After negotiation between the supplier and the buyer and indicated in the contract, the 20 steel pipes can be subjected to -20 °C longitudinal impact test; the average impact absorption energy of 3 standard specimens shall not be less than 40J. At this time, the lower limit of the use temperature of 20 steel pipes is -20 °C; e) The 12CrMo, 15CrMo, 12Cr1MoV, 12Cr2Mo, 12Cr5MoI (I is fully annealed or isothermal annealed) steel pipes, which have an outer diameter of not less than 76 mm and a wall thickness of not less than 6.5 mm, shall be subjected to 20 °C longitudinal impact test; the average impact absorption energy of 3 standard specimens shall not be less than 47J, 47J, 47J, 60J, 47J respectively. The minimum value of 1 standard specimen and the impact absorption energy index standards in Table C.4.In Table C.4, the unified digital codes of designations in GB/T 13296, GB/T 14976, GB/T 21832.1, GB/T 21832.2, GB/T 21833.1, GB/T 21833.2 shall comply with the provisions of GB/T 20878. 6.2.2 Steel pipes in GB/T 14976 shall not be used for heat exchange tubes of shell and tube heat exchangers. 6.2.3 Class I, II, III, IV (classification codes according to manufacturing methods and radiographic detection) steel pipes in GB/T 12771-2019 are allowed to be used, but not for heat exchange tubes of shell and tube heat exchangers. The classification code of the selected steel pipe and the automatic electric fusion welding method shall be indicated on the design drawing. The allowable stress of Class I steel pipes can be selected from the allowable stress of seamless steel pipes of corresponding designations in GB/T 14976; the allowable stress of Class II, Class III, Class IV steel pipes shall be based on the allowable stress of corresponding welded steel pipes in GB/T 12771-2019 in Table C.4. Class I and Class II steel pipes shall be subjected to 100% radiographic inspection in accordance with NB/T 47013.2-2015.Class III and Class IV steel pipes shall be subjected to local (at least two pipe ends) radiographic inspection of not less than 20% in accordance with NB/T 47013.2-2015.The evaluation and quality grade of the radiographic inspection results shall not be lower than the provisions of Class II in NB/T 47013.2-2015. Class I, Class II, Class III, Class IV steel pipes shall be subjected to hydraulic tests one by one. The supplier and the buyer agree that the eddy current test of steel pipes (one by one) can be carried out in accordance with GB/T 7735-2016, instead of the hydraulic test; the artificial defects of the comparison sample pipes shall comply with the provisions of acceptance level E4H or E4 in GB/T 7735-2016. The use requirements of Class III and Class IV steel pipes are as follows. a) The design pressure is less than 10.0 MPa; b) It shall not be used for media with extremely or highly toxic hazard levels. 6.2.4 The use requirements of steel pipes in GB/T 21833.1 and GB/T 21833.2 are as follows. a) Hydraulic test shall be carried out one by one. The supplier and the buyer agree that the eddy current test of steel pipes (one by one) can be carried out in accordance with GB/T 7735-2016, instead of the hydraulic test; the artificial defects of the comparison sample pipes shall comply with the provisions of acceptance level E4H or E4 in GB/T 7735-2016. b) The steel pipe shall be tested for phase ratio according to GB/T 13305; the metallographic structure shall be austenite-ferrite; the austenite content shall be ......


ICS 23.020.30 J74 National Standard of the People's Republic of China Partially Replace GB 150-1998 Pressure Vessels - Part 2. Materials ISSUE ON. NOVEMBER 21, 2011 IMPLEMENTED ON. MARCH 1, 2012 Issued by General Administration of Quality Supervision, Inspection and Quarantine of the People's Republic of China Standardization Administration of the People's Republic of China Contents Scope ... ! 2 Normative References ... I 3 General Provisions ... 2 4 Steel Plates ... 5 5 Steel Tubes and Pipes ... 15 6 Steel Forgings ... 19 7 Steel Bars for Studs (Including Bolts) and Nuts ... 26 Appendix A (Nonnative) Supplementary Requirements Pertaining to Materials ... 35 Appendix B (Infonnative) Reference Values for Steel Prope1ties at Elevated Temperature ... 41 Appendix C (Informative) Unified Numerical Code ... 49 Appendix D (Normative) Provisions on Application ofQ235 Series Steel Plates ... 51 Pressure Vessels-Part 2. Materials 1 Scope This part of GB 1.50 specifies the designation and the standard of steels that may be used for the pressure· components of pressure vessels, the additional techn ical requirements of steels, and the application scope (temperature and pressure) and allowable stress of steels. This part is applicable to the pressure vessels with design temperature during -253 'C~800 'C and design pressure no larger than 35MPa. Inapplicable scope of th is part. inapplicable scope specified in GB 150.1; vessels in refrigeration industry and papermaking industry; enamelled vessels and simple pressure vessels; scope specified in Atticle 1.4 ofTSG R0004. 2 Normative References The following documents are absolutely essential to the application of this Standard. For dated reference documents, only the dated versions apply to this Standard; for undated reference documents, the latest versions (including all amendments) apply to this Standard. GB 150.1 - 2011 "Pressure Vessels- Part 1. General Requirements" GB 15 0.3- 20 11 "Pressure Vessels-Pa1t 3. Design" OBIT 228 "Metallic Materials-Tensile Testing at Ambient Temperature" OBIT 229 "Metallic Materials-Charpy Pendulum Impact Test Method" GBIT 699 "Quality Carbon Structural Steels" GB 713 "Steel Plates for Boiler and Pressure Vessels" OBIT 1220 "Stainless Steel Bars" GBIT 1221 "Heat-resisting Steel Bars" OBIT 3077 "Alloy Structure Steels" GB 3531 "Low Alloy Steel Plates for Low Temperature Pressure Vessels" GBIT 4226 "Cold Finished Stainless Steel Bar" GBIT 4334 "Corrosion of Metals and Alloys-Test Methods for lntergranular Corrosion of Stainless Steels" GB 5310 "Seamless Steel Tubes and Pipes for High Pressure Boiler" GB 6479-2000 "Seamless Steel Tubes for High-pressure for Chemical Fertilizer Equipments" GB/T 6803 "Test Method for Drop-weight Test to Detennine Nil-ductility Transition Temperature of Ferritic Steels" GBIT 7735 "Steel Tubes- The Inspection Method on Eddy Current Test" GBIT 8163 "Seamless Steel Tubes for Liquid Service" GB 9948 "Seamless Steel Tubes for Petroleum Cracking" GB/T 12771 "Welded Stainless Steel Pipes for Liquid Delivery" GB 13296 "Seamless Stainless Steel Tubes for Boiler and Heat Exchanger" GBff 14976 "Stainless Steel Seamless Tubes for Fluid Transport" GB 19189 "Quenched a~d Tempered High Strength Steel Plates for Pressure Vessels" GB/T 20878 "Stainless and Heat-resisting Steels-Designation and .Chemical Composition" GB/T 21832 "Austenitic-Ferritic (Duplex) Grade Stainless Steel Welded Tubes and Pipes" GBff 2 I 833 "Austenitic-Ferritic (Duplex) Grade Stainless Steel Seamless Tubes and Pipes" GB 24511 "Stainless Steel Plate, Sheet and Strip for Pressure Equipments" GB/T 24593 "Welded Austenitic Stainless Steel Tubes for Boiler and Heat-exchanger" NB/T 47002.1 "Explosion Welded C lad Plate for Pressure Vessels-Part 1. Stainless Steel-steel Clad Plate" NB/T 47002.2 "Explosion Welded Clad Plate for Pressure Vessels- Prut 2. Nickel-steel Clad Plate" NBrr 47002.3 "Explosion Welded C lad Plate for Pressure Vessels-Part 3. Titanium-steel Clad Plate" NB/T 47002.4 "Explosive Welding Composite Plate for Pressure Vessels- Prut 4. Copper-steel Clad Plate" NB/T 47008 "Carbon Steel and Alloy Steel Forgings for Pressure Equipments" NB/T 4 7009 "Low-alloy Steel Forgings for Low Temperature Pressure Equipments" NB/T 47010 "Stainless and Heat-resisting Steel Forgings for Pressure Equipments" JB/T 4730.3 "Nondestructive Testing of Pressure Equipments- Patt 3. Ultrasonic Testing" JBIT 4756 "Nickel and Nickel Alloy Pressure Vessels" TSG R0004 "Supervision Regulation on Safety Technology for Stationary Pressure Vessel" ISO 9328-2. 2004 "Steel Flat Products for Pressure Purposes- Technical Delivery Conditions- Patt 2. Non-alloy and Alloy Steels with Specified Elevated Temperature Properties" 3 General Provisions 3.1 This standard gives the relevant provisions on the steels used for the steel plates, steel tubes and pipes, steel forgings and studs (including bolts) adopted by the pressure components of pressure vessels. The steels used for the non-pressure components that are welded with the pressure components shall adopt the steels with favorable weldability. 3.2 Where the steels of which the designations are not included in this standard are adopted, except for the austenitic steels, all the other steels shall meet the relevant requirements of Appendix A. It is allowed to adopt such austenitic steels that have been included in the relevant national standards, and their tecl1J1ical requirements (like the provisions on phosphorus content and sulphur content as well as the strength index) shall not be less than the provisions on those designations having the approximate chemical compositions, among the corresponding steels listed in this ~tandard. 3.3 The steels used for the pressure components of pressure vessels shall be accompanied by the original steel quality certificate of the steel production organization, and the vessel fabrication organization shall conduct acceptance on steels according to the quality certificate. If the original steel quality ce1tificate of steel production organization is unavailable, then the provisions of 2.1 in TSG R0004 shall be followed . The vessel fabrication organization shall conduct reinspection on steels if the conditions meet those stated in 2.11 ofTSG R0004. 3.4 When selecting the steels used for the pressure components of pressure vessels, the service conditions (like design temperat11re, design pressure, medium characteristics and operating features, etc.), the properties of materials (mechanical properties, technological properties, chemical properties and physical properties) as well as the fabrication technology and economical rationality of vessels shall be taken into consideration. 3.5 The steels used for the pressure components of pressure vessels shall be killed steel smelted through oxygen blown convetter or electric fumace. The extemal refining technology still shall be adopted in relation to the low alloy steel plates and austenitic-ferritic stainless steel plates with the lower limit value of standard tensile strength larger than or equal to 540MPa as well as to the low temperature steel plates and low temperature steel forgings used at such application temperature that islessthan -20°C. 3.6 The upper limit of the application temperature of steels used for pressure components of pressure vessels 3.6.1 The upper limit of the application temperature of steels (the maximum design temperature of corresponding pressure component) is the maximum temperature corresponding to the allowable stress of every designation listed in the allowable stress tables in this standard. Ifthe steels need operating at such temperature above the upper limit of application temperature during the technological process, the corresponding provisions shall be specified in the design documents. The allowable stress given at the right side of the bold line in the allowable stress table is detennined according to 1 x 1 05h endurance strength limit of steels at elevated temperature. 3.6.2 Where the carbon steel and carbon manganese steel are used for a long time at the temperature above 425°C, the tendency to graphitization of the carbide phase in steel shall be considered. 3.6.3 If the application temperature of austenitic steel is larger than 525 oc, the carbon content in steel shall not be less than 0.04%. 3.7 The lower limit of the application temperature of steels used for pressure components of pressure vessels 3.7.1 The lower limit (the minimum design temperature of corresponding pressure component) of the application temperature of steels (excluding the austenitic steels) shall meet those specified in Chapters 4-7. 3.7.2 Where the application temperature of austenitic steels is larger than or equal to - 196°C, such steels may not be carried out with impact test. Where the application temperature of austenitic steels is less than - 196°C-- 253 OC, the impact test requirements shall be specified in the design documents. ......

Similar standards: GB/T 150.1-2024  GB/T 150.3-2024  
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