ASME B36.10M-2004

澳大利亚无缝钢管标准澳大利亚无缝钢管的生产和质量标准通常由澳大利亚标准协会（Standards Australia）制定。

以下是一般情况下，澳大利亚无缝钢管可能符合的一些相关标准：1. ASME B36.10M / B36.19MASME B36.10M 和 B36.19M 分别是关于管道尺寸、壁厚和相关材料的标准规范，适用于各种管道，包括无缝钢管。

这两个标准由美国机械工程师协会（ASME）制定，但在全球范围内得到了广泛应用，包括澳大利亚。

2. AS/NZS 1163AS/NZS 1163 是澳大利亚和新西兰关于冷成型结构钢中空部件的标准。

虽然主要适用于结构钢，但在一些情况下，无缝钢管也可能符合这一标准的相关规定。

3. AS 4041AS 4041 是澳大利亚关于压力设备的设计和制造的标准，包括了管道系统。

对于高压和高温的应用，该标准可能适用于无缝钢管的生产和使用。

4. AS/NZS 1074AS/NZS 1074 是澳大利亚和新西兰关于钢管的标准，包括了无缝钢管。

该标准涵盖了各种类型的钢管，包括用于水和其他流体传输的管道。

5. AS/NZS 3678AS/NZS 3678 是澳大利亚和新西兰关于热轧结构钢的标准，包括了各种形状的结构钢，其中可能包括一些与无缝钢管相关的规定。

6. ISO 3183ISO 3183 是国际标准，涵盖了钢管输送系统中用于传输石油和天然气的钢管。

澳大利亚的一些无缝钢管生产和使用可能符合这一标准，特别是在涉及到输油、输气管道的情况下。

请注意，确切的标准适用于特定的无缝钢管取决于其用途、工业领域以及所需的技术规范。

因此，在选择无缝钢管时，建议参考具体的项目要求，并与相关的标准和规范一致。

同时，由于标准可能会更新，建议查阅最新版本的相关标准文档。

管道公称直径管道的公称直径，简称为DN（Diamètre Nominal），指的是管道的标准尺寸，用于描述管道的大小。

公称直径并不是指管道的实际直径，而是一个与管道尺寸相关的编号，它在管道工程中起到了非常重要的作用。

公称直径的单位通常为毫米，表示管道内径的大小。

一般来说，公称直径是根据祖国或国际标准编制的，以便标准化和规范化管道的选择、设计和安装。

它们类似于标准螺纹和螺帽的尺寸。

公称直径的存在使得在不同国家和地区设计和制造的管道能够互换使用，减少了管道系统的复杂性。

根据不同的标准，管道的公称直径范围是不同的。

以下是一些常见的管道公称直径及其对应的尺寸范围：1. 美国标准管道公称直径（ANSI/ASME B36.10M）：- DN15 (1/2") ~ DN1200 (48")，对应尺寸范围：21.3mm ~ 1219mm2. 日本标准管道公称直径（JIS B 2311）：- DN15 (1/2") ~ DN2000 (80")，对应尺寸范围：21.7mm ~ 2020mm3. 德国标准管道公称直径（DIN 2440）：- DN8 (1/4") ~ DN150 (6")，对应尺寸范围：13.5mm ~165.1mm4. 欧洲标准管道公称直径（EN 10220）：- DN15 (1/2") ~ DN1200 (48")，对应尺寸范围：21.3mm ~ 1219mm5. 国际标准管道公称直径（ISO 6708）：- DN2 (0.08") ~ DN3600 (144")，对应尺寸范围：3.2mm ~ 3630mm在实际工程中，选择合适的公称直径非常重要，它取决于管道所需传输的介质、流速、压力、温度等因素。

较小的公称直径适用于输送较小的流量，而较大的公称直径则适用于输送大流量的管道系统。

此外，公称直径还与管道的壁厚相关。

高温作业用碳素钢无缝钢管1ASTM A106/A106M-04b本标准是基于A106/A106M提出的。

标号后面的数字表示所采用原始版本的年代，如果有再版的话，表示最新的再版年代。

括号中的数字表示最新重新批准的年代。

上标（ε）表示由于最新再版或重新批准后编排上的改变。

该标准已经由国防部批准使用。

1范围1.1 本标准2包括NPS 1/8至NPS 48[DN6~DN1200]（注释2）的高温作业（注释1）用碳钢无缝管，公称（平均）壁厚由ASME B36.10M给出。

只要符合本标准所有其它要求，允许提供其它规格的管子。

按照本标准订货的管子要适合于弯曲、翻边及类似的加工操作及焊接。

焊接此种钢材的先决条件是要使用适合于该钢号和钢管用途的焊接程序和操作方法。

注释1：建议应考虑可能产生的石墨化倾向。

注释2：在本标准中，无尺寸单位的符号NPS（管材公称尺寸）取代了象“公称直径”，“尺寸”以及“公称尺寸”这样的传统术语。

1.2 对于一些打算用于高级钢管的无缝管来说，要有一个所选品种的补充要求。

在订单中应规定出这些附加要求需要做的某些附加试验。

1.3 用英寸/磅或SI单位标明的数值分别为独立的标准。

文中SI单位数值标在括号内。

用两种单位制表示的数值不是精准的等换值，所以两种单位制必须独立使用，不可混合使用。

1.4 下列预防性警告只适用于试验方法部分，即本规范的11、12、13、14及15部分：本标准不想阐述所有的安全问题，即使有，也只是涉及其用途时少许提到。

制定适宜的安全和健康条例以及采用标准之前确定使用规章制度，是本标准采用者的责任。

2 参考文件2.1 ASTM标准3A530/A530M 关于特殊碳钢及合金钢管的一般要求E213 关于金属管道及管材的超声波检验方法E309 关于使用磁饱和进行钢管产品涡流电流检验方法E381 钢制产品（其中包括棒材、小方坯、大方坯和锻造件）的宏观腐蚀试验方法E570 铁磁钢管形产品磁通渗透漏检验方法2.2 ASME标准：ASME B36.10M焊接钢管和无缝钢管42.3 军用标准MIL—STD—129装运及保管标记5MIL—STD—163轧制钢材产品，准备装运和保管2.4 联邦制标准Fed. Std. 123装运标记（地方机构）5Fed. Std. 183钢铁产品的连续鉴定标记2.5 其它标准：SSPC-Sp6 表面处理规范 N0.66注：1.本标准由钢、不锈钢和相关合金钢委员会A01授权颁布，由碳素钢钢管产品分会A01.19负责。

ASME标准-管道压力管道设计常用ASME标准，其中包括组件尺寸型式标准和材料标准。

组件型式标准规定了组件的型式、系列、尺寸、公差、试验要求，以及该组件可采用的材料标准等。

材料标准规定了适用的对象、原材料品种、化学成分、机械性能、制造工艺、热处理、无损检查、取样和性能检验、质量证书、标志等。

常用的组件型式标准包括钢管、管件、阀门、法兰、垫片和紧固件。

例如，钢管常用的标准有ANSI/ASMEB36.10M和ANSI/ASMEB36.19M；管件常用的标准有ANSI/ASMEB16.9、ANSI/ASMEB16.1和ANSI/ASMEB16.28；阀门常用的标准有ANSI/ASMEB16.34、API599、API600、API602和API609；法兰常用的标准有ANSI/ASMEB16.5、ANSI/ASMEB16.36、ANSI/ASMEB16.42和ANSI/ASMEB16.47；垫片常用的标准有ANSI/ASMEB16.20和ANSI/ASMEB16.21；紧固件常用的标准有ANSI/ASMEB18.2.1和ANSI/ASMEB18.2.2等。

材料标准主要集中收录在ASMEIIA篇铁基材料，B篇非铁基材料，C篇焊条、焊丝填充金属，D篇性能，以及一些增补内容。

与压力管道设计相关的典型的为A篇、D篇等。

A篇的主要分类有：钢板、薄板和钢带，公称管（Pipe），管子（Tube），钢法兰、配件、阀门及零件，压力用钢板、薄板和钢带，结构钢，钢棒材，钢螺栓材料，钢坯和锻件，钢铸件，耐腐蚀钢和耐热钢，锻轧铁、铸铁和可锻铸铁，以及方法标准等。

这些材料标准规定了原材料品种、化学成分、机械性能、制造工艺、热处理、无损检查、取样和性能检验、质量证书、标志等。

材料的表示方法通常使用“标准号-级别”及UNS编号。

例如，304是一种级别，而TP316中的TP表示管材，代表英文单词TUBE&PIPE的首字母。

F316中的F表示锻件，是FORGING的缩写。

不同标准工业管道管径
不同标准的工业管道管径有多种规格。

以下是一些常见的工业管道标准和相应的管径范围：
1. 美国标准（ANSI/ASME B36.10M和B36.19M）：
- 焊接和无缝碳钢管：1/8英寸（3.18毫米）到 80英寸（2032毫米）
- 焊接和无缝不锈钢管：1/8英寸（3.18毫米）到 24英寸（610毫米）
2. 欧洲标准（EN 10220）：
- 焊接和无缝钢管：21.3毫米到 4200毫米
3. 日本标准（JIS B2311/B2312/B2313）：
- 焊接和无缝钢管：15A（15毫米）到 5000A（5000毫米）
4. 国际标准（ISO 4200）：
- 焊接和无缝钢管：6毫米到 1130毫米
需要注意的是，不同国家和地区可能使用不同的管径标准，因此在具体工程中应根据所采用的标准来确定管径。

此外，还有定制的非标准管径可用于特殊需求。

2004版ASME B36.19M‐2004 （英文版）不锈钢钢管封面和封底外加一页空白页，一共14页。

Stainless Steel PipeA N A M E R I C A N N A T I O N A L S T A N D A R DA N A M E R I C A N N A T I O N A L S T A N D A R DSTAINLESS STEELPIPEASME B36.19M-2004(Revision of ANSI/ASME B36.19M-1985)Date of Issuance:October25,2004This Standard will be revised when the Society approves the issuance of a new edition.There will be no addenda or written interpretations of the requirements of this Standard issued to this edition.ASME is the registered trademark of The American Society of Mechanical Engineers.This code or standard was developed under procedures accredited as meeting the criteria for American National Standards.The Standards Committee that approved the code or standard was balanced to assure that individuals from competent and concerned interests have had an opportunity to participate.The proposed code or standard was made available for public review and comment that provides an opportunity for additional public input from industry,academia, regulatory agencies,and the public-at-large.ASME does not“approve,”“rate,”or“endorse”any item,construction,proprietary device,or activity.ASME does not take any position with respect to the validity of any patent rights asserted in connection with any items mentioned in this document,and does not undertake to insure anyone utilizing a standard against liability for infringement of any applicable letters patent,nor assume any such ers of a code or standard are expressly advised that determination of the validity of any such patent rights,and the risk of infringement of such rights,is entirely their own responsibility.Participation by federal agency representative(s)or person(s)affiliated with industry is not to be interpreted as government or industry endorsement of this code or standard.ASME accepts responsibility for only those interpretations of this document issued in accordance with the established ASME procedures and policies,which precludes the issuance of interpretations by individuals.No part of this document may be reproduced in any form,in an electronic retrieval system or otherwise,without the prior written permission of the publisher.The American Society of Mechanical EngineersThree Park Avenue,New York,NY10016-5990Copyright©2004byTHE AMERICAN SOCIETY OF MECHANICAL ENGINEERSAll rights reservedPrinted in U.S.A.CONTENTSForeword (iv)Committee Roster (v)1Scope (1)2Size (1)3Materials (1)4Wall Thickness (1)5Weights (1)6Permissible Variations (1)7Pipe Threads (1)8Wall Thickness Selection (2)Table1Dimensions of Welded and Seamless Stainless Steel Pipe and Nominal Weights of Steel Pipe,Plain End (3)iiiFOREWORDThis Standard for corrosion resistant piping,designated categorically as stainless,is based on the same principles that formed the background for the development of ASME B36.10M,Welded and Seamless Wrought Steel Pipe,and reference is made to this source of information.The more recent development of the highly alloyed stainless steels has brought about a minor conflict with convention.With these newer materials,the need for standards is just as great and the present types of threads are just as satisfactory,but the basic cost of the metal is much higher and the art of fusion welding has developed concurrently.The character of stainless steel permits the design of thin-wall piping systems without fear of early failure due to corrosion,and the use of fusion welding to join such piping has eliminated the necessity of threading it.For these reasons,the wall thickness dimensions shown under Schedule10S have been developed,based on the conventional formula,but then modified to correspond to the nearest Birmingham Wire Gage(B.W.G.)number.Following publication of the1949edition,a demand developed for a still lighter wall pipe.A Schedule5S was determined cooperatively by representatives of chemical companies,processing industries,and manufacturers of welding fittings.This was endorsed by the American Standards Association(ASA)Chemical Industry Correlating Committee and the Manufacturers Standardiza-tion Society of the Valve and Fittings Industry.The new schedule was included in the revised standard that was approved by ASA(now ANSI)on April7,1952.In1956,it was recommended that the wall thickness of12in.5S be lessened,and a new revision of the standard was issued shortly after its approval by ASA on February27,1957.In this fourth edition,dimensions were expanded beyond12in.pipe size by inclusion of,and reference to, ASTM Specification A409.This revision was approved by ASA on October29,1965.The B36Standards Committee membership was asked in March1970for recommendations as to what action should be taken on ANSI B36.19-1965since,according to ANSI procedures,this standard was due for revision or affirmation.The B36Standards Committee recommended reaffirmation.This action was approved by the Secretariat and by the American National Standards Institute on May26,1971.In1975,the B36Standards Committee undertook a review of the standard,considering its acceptability and usefulness.The results were favorable;some editorial refinements and updating were proposed,along with the incorporation of factors for conversion to SI(metric)units.The revision was approved by the Standards Committee,the Secretariat,and subsequently the Ameri-can National Standards Institute on October4,1976.The standard was revised in1984to include SI(metric)dimensions.The outside diameters and wall thicknesses were converted to millimeters by multiplying the inch dimensions by25.4. Outside diameters larger than16in.were rounded to the nearest1mm,and outside diameters 16in.and smaller were rounded to the nearest0.1mm.Wall thicknesses were rounded to the nearest0.01mm.These converted and rounded SI dimensions were added in Table2A.A formula to calculate the SI plain end mass,kg/m,using SI diameters and thicknesses,was added to para.5.The SI plain end mass was calculated for each size and thickness,and added in Table3A. These changes in the standard were approved by the Standards Committee,the Sponsor,and ANSI,and it was designated an American National Standard on October7,1985.The current edition revises the text to conform to the format and content,as appropriate,of ASME B36.10M-2004.Tables2,2A,3,and3A are replaced with a new Table1,combining the information in the previous tables into a single table.Also,the roster of the disbanded B36 Committee is replaced by the roster of the B32Committee.This edition was approved as an American National Standard on June23,2004.ivASME B32COMMITTEEMetal and Metal Alloy Wrought Mill Product Nominal Sizes (The following is the roster of the Committee at the time of approval of this Standard.)OFFICERSJ.A.Gruber,ChairJ.H.Karian,SecretaryCOMMITTEE PERSONNELF.M.Christensen,F.M.Christensen Metallurgical Consulting,Inc.A.Cohen,Arthur Cohen&AssociatesJ.A.Gruber,Wheatland Tube Co.W.N.Holliday,LTV Steel Co.L.T.Ingels,American Gas Association,Inc.J.H.Karian,The American Society of Mechanical EngineersK.O.Kverneland,Kok Metric Co.A.R.Machell,Jr.P.Pollak,Aluminum Association,Inc.R.N.RauvviASME B36.19M-2004 STAINLESS STEEL PIPE1SCOPEThis Standard covers the standardization of dimen-sions of welded and seamless wrought stainless steel pipe for high or low temperatures and pressures.The word pipe is used,as distinguished from tube,to apply to tubular products of dimensions commonly used for pipeline and piping systems.Pipes NPS12(DN300) and smaller have outside diameters numerically larger than their corresponding sizes.In contrast,the outside diameters of tubes are numerically identical to the size number for all sizes.The wall thicknesses for NPS14through22,inclusive (DN350–550,inclusive),of Schedule10S;NPS12(DN 300)of Schedule40S;and NPS10and12(DN250and 300)of Schedule80S are not the same as those of ASMEB36.10M.The suffix“S”in the schedule number is used to differentiate B36.19M pipe from B36.10M pipe.ASMEB36.10M includes other pipe thicknesses that are also commercially available with stainless steel material.2SIZEThe size of all pipe in Table1is identified by the nominal pipe size.The manufacture of pipe NPS1⁄8(DN6)through NPS 12(DN300),inclusive,is based on a standardized out-side diameter(OD).This OD was originally selected so that pipe with a standard OD and having a wall thick-ness that was typical of the period would have an inside diameter(ID)approximately equal to the nominal size. Although there is no such relation between the existing standard thicknesses—OD and nominal size—these nominal sizes and standard ODs continue in use as “standard.”The manufacture of pipe NPS14(DN350)and larger proceeds on the basis of an OD corresponding to the nominal size.3MATERIALSThe dimensional standards for pipe described here are for products covered in ASTM specifications.4WALL THICKNESSThe nominal wall thicknesses are given in Table1.15WEIGHTSThe nominal weights1of steel pipe are calculated val-ues and are tabulated in Table1.(a)The nominal plain end weight,in pounds per foot, is calculated using the following formula:W pe p10.69(D−t)twhereD p outside diameter to the nearest0.001in.(thesymbol D is used for OD only in mathematicalequations or formulas)W pe p nominal plain end weight,rounded to the nearest0.01lb/ftt p specified wall thickness,rounded to the near-est0.001in.(b)The nominal plain end mass,in kilograms per meter,is calculated using the following formula:W pe p0.0246615(D−t)twhereD p outside diameter to the nearest0.1mm foroutside diameters that are16in.(406.4mm)and smaller,and1.0mm for outside diameterslarger than16in.(the symbol D is used for ODonly in mathematical equations or formulas) W pe p nominal plain end mass,rounded to the near-est0.01kg/mt p specified wall thickness,rounded to the near-est0.01mm6PERMISSIBLE VARIATIONSVariations in dimensions differ depending upon the method of manufacture employed in making the pipe to the various specifications available.Permissible varia-tions for dimensions are indicated in each specification. 7PIPE THREADSUnless otherwise specified,the threads of threaded pipe shall conform to ANSI/ASME B1.20.1,Pipe Threads,General Purpose(Inch).1The different grades of stainless steel have different specific densities and hence may weigh more or less than the values listed in Table1would indicate[see Table1,General Note(e)].ASME B36.19M-2004STAINLESS STEEL PIPESchedules5S and10S wall thicknesses do not permit threading in accordance with ANSI/ASME B1.20.1.8WALL THICKNESS SELECTIONWhen the selection of wall thickness depends primar-ily upon capacity to resist internal pressure under given conditions,the designer shall compute the exact value2of wall thickness suitable for conditions for which the pipe is required,as prescribed in detail in the ASME Boiler and Pressure Vessel Code,ASME B31Code for Pressure Piping,or other similar code,whichever gov-erns the construction.A thickness shall be selected from the schedules of nominal thickness contained in Table 1to suit the value computed to fulfill the conditions for which the pipe is desired.STAINLESS STEEL PIPE ASME B36.19M-2004 Table1Dimensions of Welded and Seamless Stainless Steel Pipe and Nominal Weights ofSteel Pipe,Plain EndU.S.Customary Units SI UnitsScheduleNPS OD,in.Wall,in.W pe,lb/ft No.DN OD,mm Wall,mm W pe,kg/m1⁄80.405...(1)...5S610.3...(1)...1⁄80.4050.049(1)0.1910S610.3 1.24(1)0.281⁄80.4050.0680.2440S610.3 1.730.371⁄80.4050.0950.3180S610.3 2.410.471⁄40.540...(1)...5S813.7...(1)...1⁄40.5400.065(1)0.3310S813.7 1.65(1)0.491⁄40.5400.0880.4340S813.7 2.240.631⁄40.5400.1190.5480S813.7 3.020.803⁄80.675...(1)...5S1017.1...(1)...3⁄80.6750.065(1)0.4210S1017.1 1.65(1)0.633⁄80.6750.0910.5740S1017.1 2.310.843⁄80.6750.1260.7480S1017.1 3.20 1.101⁄20.8400.065(1)0.545S1521.3 1.65(1)0.801⁄20.8400.083(1)0.6710S1521.3 2.11(1) 1.001⁄20.8400.1090.8540S1521.3 2.77 1.271⁄20.8400.147 1.0980S1521.3 3.73 1.623⁄41.0500.065(1)0.685S2026.7 1.65(1) 1.023⁄41.0500.083(1)0.8610S2026.7 2.11(1) 1.283⁄41.0500.113 1.1340S2026.7 2.87 1.693⁄41.0500.154 1.4880S2026.7 3.912.201 1.3150.065(1)0.875S2533.4 1.65(1) 1.29 1 1.3150.109(1) 1.4110S2533.4 2.77(1) 2.09 1 1.3150.133 1.6840S2533.4 3.38 2.50 1 1.3150.179 2.1780S2533.4 4.55 3.2411⁄4 1.6600.065(1) 1.115S3242.2 1.65(1) 1.65 11⁄4 1.6600.109(1) 1.8110S3242.2 2.77(1) 2.69 11⁄4 1.6600.140 2.2740S3242.2 3.56 3.39 11⁄4 1.6600.191 3.0080S3242.2 4.85 4.4711⁄2 1.9000.065(1) 1.285S4048.3 1.65(1) 1.90 11⁄2 1.9000.109(1) 2.0910S4048.3 2.77(1) 3.11 11⁄2 1.9000.145 2.7240S4048.3 3.68 4.05 11⁄2 1.9000.200 3.6380S4048.3 5.08 5.412 2.3750.065(1) 1.615S5060.3 1.65(1) 2.39 2 2.3750.109(1) 2.6410S5060.3 2.77(1) 3.93 2 2.3750.154 3.6640S5060.3 3.91 5.44 2 2.3750.218 5.0380S5060.3 5.547.4821⁄2 2.8750.083(1) 2.485S6573 2.11(1) 3.69 21⁄2 2.8750.120(1) 3.5310S6573 3.05(1) 5.26 21⁄2 2.8750.203 5.8040S6573 5.168.63 21⁄2 2.8750.2767.6780S65737.0111.413 3.5000.083(1) 3.035S8088.9 2.11(1) 4.52 3 3.5000.120(1) 4.3410S8088.9 3.05(1) 6.46 3 3.5000.2167.5840S8088.9 5.4911.29 3 3.5000.30010.2680S8088.97.6215.273ASME B36.19M-2004STAINLESS STEEL PIPE Table1Dimensions of Welded and Seamless Stainless Steel Pipe and Nominal Weights ofSteel Pipe,Plain End(Cont’d)U.S.Customary Units SI UnitsScheduleNPS OD,in.Wall,in.W pe,lb/ft No.DN OD,mm Wall,mm W pe,kg/m 31⁄2 4.0000.083(1) 3.485S90101.6 2.11(1) 5.18 31⁄2 4.0000.120(1) 4.9810S90101.6 3.05(1)7.41 31⁄2 4.0000.2269.1240S90101.6 5.7413.57 31⁄2 4.0000.31812.5280S90101.68.0818.644 4.5000.083(1) 3.925S100114.3 2.11(1) 5.84 4 4.5000.120(1) 5.6210S100114.3 3.05(1)8.37 4 4.5000.23710.8040S100114.3 6.0216.08 4 4.5000.33715.0080S100114.38.5622.325 5.5630.109(1) 6.365S125141.3 2.77(1)9.46 5 5.5630.134(1)7.7810S125141.3 3.40(1)11.56 5 5.5630.25814.6340S125141.3 6.5521.77 5 5.5630.37520.8080S125141.39.5330.976 6.6250.109(1)7.595S150168.3 2.77(1)11.31 6 6.6250.134(1)9.3010S150168.3 3.40(1)13.83 6 6.6250.28018.9940S150168.37.1128.26 6 6.6250.43228.6080S150168.310.9742.5688.6250.109(1)9.925S200219.1 2.77(1)14.78 88.6250.148(1)13.4110S200219.1 3.76(1)19.97 88.6250.32228.5840S200219.18.1842.55 88.6250.50043.4380S200219.112.7064.641010.7500.134(1)15.215S250273.1 3.40(1)22.61 1010.7500.165(1)18.6710S250273.1 4.19(1)27.79 1010.7500.36540.5240S250273.19.2760.31 1010.7500.500(2)54.7980S250273.112.70(2)81.561212.7500.156(1)21.005S300323.9 3.96(1)31.25 1212.7500.180(1)24.1910S300323.9 4.57(1)35.99 1212.7500.375(2)49.6140S300323.99.53(2)73.88 1212.7500.500(2)65.4880S300323.912.70(2)97.471414.0000.156(1)23.095S350355.6 3.96(1)34.34 1414.0000.188(1),(2)27.7610S350355.6 4.78(1),(2)41.36 1414.0000.375(2)54.6240S350355.69.53(2)81.33 1414.0000.500(2)72.1680S350355.612.70(2)107.401616.0000.165(1)27.935S400406.4 4.19(1)41.56 1616.0000.188(1),(2)31.7810S400406.4 4.78(1),(2)47.34 1616.0000.375(2)62.6440S400406.49.53(2)93.27 1616.0000.500(2)82.8580S400406.412.70(2)123.311818.0000.165(1)31.465S450457 4.19(1)46.79 1818.0000.188(1),(2)35.8010S450457 4.78(1),(2)53.31 1818.0000.375(2)70.6540S4504579.53(2)... 1818.0000.500(2)93.5480S45045712.70(2)...2020.0000.188(1)39.825S500508 4.78(1)59.32 2020.0000.218(1),(2)46.1010S500508 5.54(1),(2)68.65 2020.0000.375(2)78.6740S5005089.53(2)117.15 2020.0000.500(2)104.2380S50050812.70(2)155.134STAINLESS STEEL PIPE ASME B36.19M-2004 Table1Dimensions of Welded and Seamless Stainless Steel Pipe and Nominal Weights ofSteel Pipe,Plain End(Cont’d)U.S.Customary Units SI UnitsScheduleNPS OD,in.Wall,in.W pe,lb/ft No.DN OD,mm Wall,mm W pe,kg/m 2222.0000.188(1)43.845S550559 4.78(1)65.33 2222.0000.218(1),(2)50.7610S550559 5.54(1),(2)75.62 2222.000......40S550559...... 2222.000......80S550559...... 2424.0000.218(1)55.425S600610 5.54(1)82.58 2424.0000.250(1)63.4710S600610 6.35(1)94.53 2424.0000.375(2)94.7140S6006109.53(2)141.12 2424.0000.500(2)125.6180S60061012.70(2)187.07 3030.0000.250(1)79.515S750762 6.35(1)118.34 3030.0000.312(1)99.0210S7507627.92(1)147.29 3030.000......40S750762...... 3030.000......80S750762...... GENERAL NOTES:(a)1in.p25.4mm.(b)For tolerances,see para.6.(c)1lb/ft p1.4895kg/m.(d)Weights are given in pounds per linear foot(kilograms per meter)and are for carbon steel pipe with plain ends.(e)The different grades of stainless steel permit considerable variations in weight.The ferritic stainless steels may beabout5%less,and the austenitic stainless steels about2%greater,than the values shown in this Table,which arebased on weights for carbon steel.NOTES:(1)These wall thicknesses do not permit threading in accordance with ANSI/ASME B1.20.1.(2)These dimensions do not conform to ASME B36.10M.5AMERICAN NATIONAL STANDARDS FOR PRODUCT SIZESPreferred Metric Sizes for Flat Metal Products.............................................................B32.3M-1984(R1994) Preferred Metric Sizes for Round,Square,Rectangle and Hexagon Metal Products...............................B32.4M-1980(R1994) Preferred Metric Sizes for Tubular Metal Products Other Than Pipe............................................B32.5-1977(R1994) Welded and Seamless Wrought Steel Pipe....................................................................B36.10M-2004 Stainless Steel Pipe......................................................................................B36.19M-2004 The ASME Publications Catalog shows a complete list of all the Standards published by the Society.For a complimentary catalog,or the latest information about our publications,call1-800-THE-ASME(1-800-843-2763).。

工程设计/llljq 发表于2007-08-14, 21:54作者：李敬琦一、压力管道设计常用ASME标准这里有两个标准，一个是组件尺寸型式标准（我国也有相应组件形式标准），另一个是材料标准（我国没有对材料形成专门的标准化）。

型式标准规定了组件的型式、系列、尺寸、公差、试验要求，以及该组件可采用的材料标准等。

材料标准规定了适用的对象、原材料（坯料）品种（采用锻轧Wrought或锻件Forged）、化学成分、机械性能、制造工艺（包括焊接）、热处理、无损检查、取样和性能检验、质量证书、标志等。

1. 典型的组件型式标准1）钢管ANSI/ASME B36.10M 无缝及焊接钢管ANSI/ASME B36.19M 不锈钢无缝及焊接钢管2）管件ANSI/ASME B16.9 工厂制造的钢对焊管件ANSI/ASME B16.1 承插焊和螺纹锻造管件ANSI/ASME B16.28 钢制对焊小半径弯头和回弯头3）阀门ANSI/ASME B16.34 法兰连接、螺纹连接和焊接连接的阀门API 599 法兰或对焊连接的钢制旋塞阀API 600 法兰或对焊连接的钢制闸阀API 602 紧凑型碳钢闸阀API 609 凸耳型对夹蝶阀4）法兰ANSI/ASME B16.5 管法兰和法兰管件ANSI/ASME B16.36 孔板法兰ANSI/ASME B16.42 球墨铸铁法兰和法兰管件ANSI/ASME B16.47 大直径钢法兰API 601 突面管法兰和法兰连接用金属垫片5）垫片ANSI/ASME B16.20 管法兰用缠绕式、包覆式垫片和环槽式用金属垫片ANSI/ASME B16.21 管法兰用非金属平垫片6）紧固件ANSI/ASME B18.2.1 方头和六角头螺栓和螺纹ANSI/ASME B18.2.2 方头和六角头螺母7）管件ASMEI B16.9 工厂制造的锻钢对焊管件ASME B16.11 承插焊和螺纹锻钢管件MSS-SP-43 锻制不锈钢对焊管件2. 材料标准ASTM/ASME材料标准主要集中收录在ASME II A篇铁基材料，B篇非铁基材料，C篇焊条、焊丝填充金属，D篇性能，以及一些增补内容。