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本文(ASTM A479 A479M-2016a Standard Specification for Stainless Steel Bars and Shapes for Use in Boilers and Other Pressure Vessels《锅炉和其他压力容器用不锈钢棒材和型材的标准规格》.pdf)为本站会员(terrorscript155)主动上传,麦多课文库仅提供信息存储空间,仅对用户上传内容的表现方式做保护处理,对上载内容本身不做任何修改或编辑。 若此文所含内容侵犯了您的版权或隐私,请立即通知麦多课文库(发送邮件至master@mydoc123.com或直接QQ联系客服),我们立即给予删除!

ASTM A479 A479M-2016a Standard Specification for Stainless Steel Bars and Shapes for Use in Boilers and Other Pressure Vessels《锅炉和其他压力容器用不锈钢棒材和型材的标准规格》.pdf

1、Designation: A479/A479M 16A479/A479M 16a Used in USDOE-NE StandardsStandard Specification forStainless Steel Bars and Shapes for Use in Boilers andOther Pressure Vessels1This standard is issued under the fixed designation A479/A479M; the number immediately following the designation indicates the yea

2、rof original adoption or, in the case of revision, the year of last revision. A number in parentheses indicates the year of last reapproval.A superscript epsilon () indicates an editorial change since the last revision or reapproval.This standard has been approved for use by agencies of the U.S. Dep

3、artment of Defense.1. Scope*1.1 This specification2 covers hot- and cold-finished bars of stainless steel, including rounds, squares, and hexagons, andhot-rolled or extruded shapes such as angles, tees, and channels for use in boiler and pressure vessel construction.2NOTE 1There are standards coveri

4、ng high nickel, chromium, austenitic corrosion, and heat-resisting alloy materials. These standards are under thejurisdiction of ASTM Subcommittee B02.07 and may be found in Annual Book of ASTM Standards, Vol 02.04.1.2 The values stated in either SI units or inch-pound units are to be regarded separ

5、ately as standard. The values stated in eachsystem may not be exact equivalents; therefore, each system shall be used independently of the other. Combining values from thetwo systems may result in non-conformance with the standard.1.3 Unless the order specifies the applicable “M” specification desig

6、nation, the material shall be furnished to the inch-poundunits.2. Referenced Documents2.1 ASTM Standards:3A262 Practices for Detecting Susceptibility to Intergranular Attack in Austenitic Stainless SteelsA370 Test Methods and Definitions for Mechanical Testing of Steel ProductsA484/A484M Specificati

7、on for General Requirements for Stainless Steel Bars, Billets, and ForgingsA751 Test Methods, Practices, and Terminology for Chemical Analysis of Steel ProductsE112 Test Methods for Determining Average Grain SizeE527 Practice for Numbering Metals and Alloys in the Unified Numbering System (UNS)2.2 S

8、AE Document:4SAE J 1086 Recommended Practice for Numbering Metals and Alloys3. General Requirements3.1 The following requirements for orders for material furnished under this specification shall conform to the applicablerequirements of the current edition of Specification A484/A484M.3.1.1 Definition

9、s,3.1.2 General requirements for delivery,3.1.3 Ordering information,3.1.4 Process,3.1.5 Special tests,3.1.6 Heat treatment,3.1.7 Dimensions and permissible variations,3.1.8 Workmanship, finish, and appearance,1 This specification is under the jurisdiction ofASTM Committee A01 on Steel, Stainless St

10、eel and RelatedAlloysand is the direct responsibility of Subcommittee A01.17on Flat-Rolled and Wrought Stainless Steel.Current edition approved Jan. 1, 2016May 1, 2016. Published January 2016May 2016. Originally approved in 1962. Last previous edition approved in 20152016 asA479/A479M 15.A479/A479M

11、16. DOI: 10.1520/A0479_A0479M-16.10.1520/A0479_A0479M-16A.2 For ASME Boiler and Pressure Vessel Code applications see related Specification SA-479/SA-479M in Section II of that Code.3 For referencedASTM standards, visit theASTM website, www.astm.org, or contactASTM Customer Service at serviceastm.or

12、g. For Annual Book of ASTM Standardsvolume information, refer to the standards Document Summary page on the ASTM website.4 Available from Society of Automotive Engineers (SAE), 400 Commonwealth Dr., Warrendale, PA 15096-0001, http:/www.sae.org.This document is not an ASTM standard and is intended on

13、ly to provide the user of an ASTM standard an indication of what changes have been made to the previous version. Becauseit may not be technically possible to adequately depict all changes accurately, ASTM recommends that users consult prior editions as appropriate. In all cases only the current vers

14、ionof the standard as published by ASTM is to be considered the official document.*A Summary of Changes section appears at the end of this standardCopyright ASTM International, 100 Barr Harbor Drive, PO Box C700, West Conshohocken, PA 19428-2959. United States13.1.9 Number of tests/test methods,3.1.

15、10 Specimen preparation,3.1.11 Retreatment,3.1.12 Inspection,3.1.13 Rejection and rehearing,3.1.14 Material test report,3.1.15 Certification, and3.1.16 Packaging, marking, and loading.4. Other Requirements4.1 In addition to the requirements of this specification, all requirements of the current edit

16、ions of Specification A484/A484Mshall apply. Failure to comply with the general requirements of Specification A484/A484M constitutes nonconformance with thisspecification.5. Chemical Composition5.1 Chemical composition shall be reported to the purchaser, or his representative, and shall conform to t

17、he requirementsspecified in Table 1.5.2 When a product analysis is performed or requested by the purchaser, the tolerance limits as described in SpecificationA484/A484M apply unless Supplementary Requirement S3 is invoked.5.3 Methods and practices relating to chemical analysis required by this speci

18、fication shall be in accordance with Test Methods,Practices, and Terminology A751.6. Grain Size for Austenitic Grades6.1 All austenitic grades shall be tested for average grain size by Test Methods E112.6.2 The H grades shall conform to an average grain size as follows:6.2.1 ASTM No. 6 or coarser fo

19、r Types 304H, 309H, 310H, and 316H,6.2.2 ASTM No. 7 or coarser for Types 321H, 347H, and 348H.6.3 For S32615, the grain size as determined in accordance with Test Methods E112, comparison method, Plate 11, shall be No.3 or finer.6.4 For N08810 and N08811, the average grain size as determined in acco

20、rdance with Test Methods E112 shall be No. 5 orcoarser.6.5 Supplementary Requirement S1 shall be invoked when nonH grade austenitic stainless steels are ordered for ASME Codeapplications for service above 1000F 540C.7. Mechanical Properties Requirements7.1 The material shall conform to the mechanica

21、l property requirements specified in Table 2 for the grade ordered. At least oneroom-temperature test shall be performed by the manufacturer on a sample from at least one bar or shape from each lot of material.7.2 The yield strength shall be determined by the offset (0.2 %) method as prescribed in T

22、est Methods and Definitions A370.7.3 Martensitic material supplied in the annealed condition shall be capable of meeting the hardened and tempered mechanicalproperties when heat treated.7.4 Hardness measurements, when required, shall be made at a location midway between the surface and the center of

23、 the crosssection.7.5 Martensitic grades shall be capable of meeting the hardness requirements after heat treating as specified in Table 3.8. Corrosion Testing8.1 Austenitic stainless steels solution annealed by the alternative method shall be tested and pass the intergranular corrosiontest requirem

24、ents described in S2.9. Testing for Intermetallic Compounds9.1 When specified by the purchaser in the purchase order, the manufacturer shall test the austenitic or austenitic-ferritic(duplex) stainless steel material in its final condition in accordance with supplementary test requirements S6.NOTE 2

25、Many, if not all, duplex stainless steels and some austenitic stainless steels will form intermetallic phases or compounds such as sigma, chi,and laves phases when exposed to temperatures below the specified annealing temperature or cooled slowly from a higher temperature during casting,welding, or

26、annealing. These phases can have a negative effect on mechanical properties and corrosion resistance. These phases can typically be removedby correct annealing and cooling practices. The presence of these phases can be demonstrated by tests, typically involving metallography, impactA479/A479M 16a2TA

27、BLE 1 Chemical RequirementsUNSDesigna-tionATypeComposition, %BCarbon Man-ganese Phos-phorus Sulfur Silicon Chromium Nickel Nitrogen Molyb-denum Other ElementsCAustenitic GradesN08020 Alloy 20 0.07 2.00 0.045 0.035 1.00 19.021.0 32.038.0 . . . 2.003.00 Cu 3.04.0;Cb 8xC1.00N08367 . . . 0.030 2.00 0.04

28、0 0.030 1.00 20.022.0 23.525.5 0.180.25 6.07.0 Cu 0.75N08800 800 0.10 1.50 0.045 0.015 1.00 19.023.0 30.035.0 . . . . . . FeJ 39.5 min.Cu 0.75Al 0.150.60Ti 0.150.60N08810 800H 0.050.10 1.50 0.045 0.015 1.00 19.023.0 30.035.0 . . . . . . FeJ 39.5 min.Cu 0.75Al 0.150.60Ti 0.150.60N08811 . . . 0.060.10

29、 1.50 0.045 0.015 1.00 19.023.0 30.035.0 . . . . . . FeJ 39.5 min.Cu 0.75AlK 0.250.60TiK 0.250.60N08700 . . . 0.040 2.00 0.040 0.030 1.00 19.023.0 24.026.0 . . . 4.35.0 Cu 0.50;Cb 8xC0.40N08904 904L 0.020 2.00 0.045 0.035 1.00 19.023.0 23.028.0 0.10 4.05.0 Cu 1.02.0N08925 . . . 0.020 1.00 0.045 0.03

30、0 0.50 19.021.0 24.026.0 0.100.20 6.07.0 Cu 0.801.50N08926 . . . 0.020 2.00 0.030 0.010 0.50 19.021.0 24.026.0 0.150.25 6.07.0 Cu 0.501.50S20161 . . . 0.15 4.06.0 0.045 0.030 3.04.0 15.018.0 4.06.0 0.080.20 . . . . . .S20910 XM-19 0.06 4.06.0 0.045 0.030 1.00 20.523.5 11.513.5 0.200.40 1.503.00 Cb 0

31、.100.30;V 0.100.30S21600 XM-17 0.08 7.59.0 0.045 0.030 1.00 17.520.5 5.07.0 0.250.50 2.003.00 . . .S21603 XM-18 0.03 7.59.0 0.045 0.030 1.00 17.520.5 5.07.0 0.250.50 2.003.00 . . .S21800S21904. . .XM-110.100.047.09.08.010.00.0600.0450.0300.0303.54.51.0016.018.019.021.58.09.05.57.50.080.180.150.40. .

32、 . . . .S24000 XM-29 0.08 11.514.5 0.060 0.030 1.00 17.019.0 2.33.7 0.200.40 . . . . . .S30200 302 0.15 2.00 0.045 0.030 1.00 17.019.0 8.010.0 0.10 . . . . . .S30400 304 0.08D 2.00 0.045 0.030 1.00 18.020.0 8.010.5 . . . . . . . . .S30403 304L 0.030 2.00 0.045 0.030 1.00 18.020.0 8.012.0 . . . . . .

33、 . . .S30409 304H 0.040.10 2.00 0.045 0.030 1.00 18.020.0 8.010.5 . . . . . . . . .S30451 304N 0.08 2.00 0.045 0.030 1.00 18.020.0 8.012.0 0.100.16 . . . . . .S30453 304LN 0.030 2.00 0.045 0.030 1.00 18.020.0 8.011.0 0.100.16 . . . . . .S30600 . . . 0.018 2.00 0.020 0.020 3.74.3 17.018.5 14.015.5 .

34、. . 0.20 Cu 0.50S30815 . . . 0.050.10 0.80 0.040 0.030 1.402.00 20.022.0 10.012.0 0.140.20 . . . Ce 0.030.08S30908 309S 0.08 2.00 0.045 0.030 1.00 22.024.0 12.015.0 . . . . . . . . .S30909 309H 0.040.10 2.00 0.045 0.030 1.00 22.024.0 12.015.0 . . . . . . . . .S30940 309Cb 0.08 2.00 0.045 0.030 1.00

35、22.024.0 12.016.0 . . . . . . Cb 10C- 1.10S30880 ER308E 0.08 1.002.50 0.030 0.030 0.250.60 19.522.0 9.011.0 . . . . . . . . .S31008 310S 0.08 2.00 0.045 0.030 1.00 24.026.0 19.022.0 . . . . . . . . .S31009 310H 0.040.10 2.00 0.045 0.030 1.00 24.026.0 19.022.0 . . . . . . . . .S31040 310Cb 0.08 2.00

36、0.045 0.030 1.00 24.026.0 19.022.0 . . . . . . Cb 10C-1.10S31050 . . . 0.025 2.00 0.020 0.015 0.4 24.026.0 20.523.5 0.090.15 1.602.60 . . .S31254 . . . 0.020 1.00 0.030 0.010 0.80 19.520.5 17.518.5 0.180.25 6.06.5 Cu 0.501.00S31266 . . . 0.030 2.004.00 0.035 0.020 1.00 23.025.0 21.024.0 0.350.60 5.2

37、6.2 Cu 1.002.50W 1.502.50S31600 316 0.08C 2.00 0.045 0.030 1.00 16.018.0 10.014.0 . . . 2.003.00 . . .S31603 316L 0.030 2.00 0.045 0.030 1.00 16.018.0 10.014.0 . . . 2.003.00 . . .S31609 316H 0.040.10 2.00 0.045 0.030 1.00 16.018.0 10.014.0 . . . 2.003.00 . . .S31635 316Ti 0.08 2.00 0.045 0.030 1.00

38、 16.018.0 10.014.0 0.10 2.003.00 Ti 5(C+N)- 0.70S31640 316Cb 0.08 2.00 0.045 0.030 1.00 16.018.0 10.014.0 0.10 2.003.00 Cb 10C- 1.10S31651 316N 0.08 2.00 0.045 0.030 1.00 16.018.0 10.014.0 0.100.16 2.003.00 . . .S31653 316LN 0.030 2.00 0.045 0.030 1.00 16.018.0 10.014.0 0.100.16 2.003.00 . . .S31700

39、 317 0.08 2.00 0.045 0.030 1.00 18.020.0 11.015.0 . . . 3.04.0 . . .S31725 . . . 0.030 2.00 0.045 0.030 1.00 18.020.0 13.517.5 0.20 4.05.0 . . .S31726 . . . 0.030 2.00 0.045 0.030 1.00 17.020.0 14.517.5 0.100.20 4.05.0 . . .S31727 . . . 0.030 1.00 0.030 0.030 1.00 17.519.0 14.516.5 0.150.21 3.84.5 C

40、u 2.84.0S32050 . . . 0.030 1.50 0.035 0.020 1.00 22.024.0 20.023.0 0.210.32 6.06.8 Cu 0.40S32053 . . . 0.030 1.00 0.030 0.010 1.00 22.024.0 24.026.0 0.170.22 5.06.0 . . .S32100 321 0.08D 2.00 0.045 0.030 1.00 17.019.0 9.012.0 . . . . . . Ti 5(C+N)- 0.70FS32109 321H 0.040.10 2.00 0.045 0.030 1.00 17.

41、019.0 9.012.0 . . . . . . Ti 4(C+N)- 0.70FS32615 . . . 0.07 2.00 0.045 0.030 4.86.0 16.519.5 19.022.0 . . . 0.301.50 Cu 1.502.50S32654 . . . 0.020 2.04.0 0.030 0.005 0.50 24.025.0 21.023.0 0.450.55 7.08.0 Cu 0.300.60S33228 . . . 0.040.08 1.00 0.020 0.015 0.30 26.028.0 31.033.0 . . . . . . Cb 0.601.0

42、0;Ce 0.050.10;Al 0.025S34565 . . . 0.030 5.07.0 0.030 0.010 1.00 23.025.0 16.018.0 0.400.60 4.05.0 Cb 0.10S34700 347 0.08D 2.00 0.045 0.030 1.00 17.019.0 9.012.0 . . . . . . Cb 10C1.10S34709 347H 0.040.10 2.00 0.045 0.030 1.00 17.019.0 9.012.0 . . . . . . Cb 8C1.10A479/A479M 16a3toughness, or corros

43、ion resistance, although the testing requirements may be different for different alloy grades. Such testing may or may not be routinelyperformed by the manufacturer.TABLE 1 ContinuedUNSDesigna-tionATypeComposition, %BCarbon Man-ganese Phos-phorus Sulfur Silicon Chromium Nickel Nitrogen Molyb-denum O

44、ther ElementsCS34800 348 0.08D 2.00 0.045 0.030 1.00 17.019.0 9.012.0 . . . . . . (Cb+Ta) 10C1.10;Ta 0.10;Co 0.20S34809 348H 0.040.10 2.00 0.045 0.030 1.00 17.019.0 9.012.0 . . . . . . (Cb + Ta) 8C1.10;Co 0.20;Ta 0.10S35315 . . . 0.040.08 2.00 0.040 0.030 1.202.00 24.026.0 34.036.0 0.120.18 . . . Ce

45、 0.030.08S38815 . . . 0.030 2.00 0.040 0.020 5.506.50 13.015.0 15.017.0 . . . 0.751.50 Al 0.30;Cu 0.751.50Austenitic-Ferritic GradesS31803 . . . 0.030 2.00 0.030 0.020 1.00 21.023.0 4.56.5 0.080.20 2.53.5 . . .S32101 . . . 0.040 4.06.0 0.040 0.030 1.00 21.022.0 1.351.70 0.200.25 0.100.80 Cu 0.100.80

46、S32202 . . . 0.030 2.00 0.040 0.010 1.00 21.524.0 1.002.80 0.180.26 0.45 . . .S32205 . . . 0.030 2.00 0.030 0.020 1.00 22.023.0 4.56.5 0.140.20 3.03.5 . . .S32506 . . . 0.030 1.00 0.040 0.015 0.90 24.026.0 5.57.2 0.080.20 3.03.5 W 0.050.30S32550 . . . 0.04 1.50 0.040 0.030 1.00 24.027.0 4.56.5 0.100

47、.25 2.93.9 Cu 1.502.50S32750L . . . 0.030 1.20 0.035 0.020 0.80 24.026.0 6.08.0 0.240.32 3.05.0 Cu 0.50S32760G . . . 0.030 1.00 0.030 0.010 1.00 24.026.0 6.08.0 0.200.30 3.04.0 Cu 0.501.00;W 0.501.00S32808 . . . 0.030 1.10 0.030 0.010 0.50 27.027.9 7.08.2 0.300.40 0.801.2 W 2.102.50S32906 . . . 0.03

48、0 0.801.50 0.030 0.030 0.50 28.030.0 5.87.5 0.300.40 1.502.60 Cu 0.80S32950 . . . 0.03 2.00 0.035 0.010 0.60 26.029.0 3.55.2 0.150.35 1.002.50 . . .S39277 . . . 0.025 0.80 0.025 0.002 0.80 24.026.0 6.58.0 0.230.33 3.04.0 Cu 1.202.00W 0.801.20S82441 . . . 0.030 2.54.0 0.035 0.005 0.70 23.025.0 3.04.5 0.200.30 1.002.00 Cu 0.100.80Ferritic GradesS40500 405 0.08 1.00 0.040 0.030 1.00 11.514.5 0.50 . . . . . . Al 0.100.30S43000 430 0.12 1.00 0.040 0.030 1.00 16.018.0 . . . . . . . . . . . .S43035 439 0.07 1.00 0.040 0.030 1.00 17.019.0 0.50 0.04 . . . Ti 0.20 + 4

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