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美国钢材牌号对应的国内钢材美国中国1010(AISISAE)G10100(UNS) 10(GB) 1015(AISISAE)G10150(UNS) 15(GB) 1020(AISISAE) 20(GB) A105-77(锻)(ASTM)1025(AISISAE)G10250(UNS) 25(GB) 1030(AISISAE)G10300(UNS) 30(GB) 1035(AISISAE)G10350(UNS) 35(GB) 1040(AISISAE)G10400(UNS) 40(GB) A194-2H(ASTM)1045(AISISAE)G10450(UNS) 45(GB) 1050(AISISAE)G10500(UNS) 50(GB) 1055(AISISAE)G10550(UNS) 55(GB) 1060(AISISAE)G10600(UNS) 60(GB) C1115(AISI)1115(SAE) 15Mn(GB) 1022(SAE) C1022 (AISI)G10220(UNS) 20Mn(GB) 1033(SAE)C1033(AISI) 30Mn(GB) A194-4(ASTM)C1036(AISI)1036(SAE) 40Mn(GB) 1053(AISI)G10530(UNS) 50Mn(GB) A216-WCA(铸) (ASTM)WCB(铸)(二)合金结构钢美国中国5115(SAE)G51150(UNS) 15Cr(yB)5120(AISI,SAE)G51200(UNS) 20Cr(yB)5130(AISI,SAE)G51300(UNS) 30Cr(yB)5135(AISI,SAE)G51300(UNS) 35Cr(yB)5140(AISI,SAE)G51400(UNS) 40Cr(yB)5145,5147(AISI,SAE)G51450,G51470(UNS) 45Cr(yB)5150,5152(AISI,SAE)G51500(UNS) 50Cr(yB)4017(AISI,SAE)A182-F1(锻)A302Gr, A (ASTM)A356 Gr,2A204Gr-A,B,C 16Mo(yB)4119(SAE) 12 Cr Mo(yB)A387 Gr.BA182-F11, F12 (锻) (ASTH) 15 Cr Mo(yB) 4119(SAE)4118(AISI,SAE)G41180(UNS) 20 Cr Mo(yB)25 Cr Mo(YB旧)4130(AISI,SAE) 30 Cr Mo(yB)E4132(AISI)E4135(AISI)G41350(UNS)A193-B7(ASTH) 35 Cr Mo(yB)4140(AISI,SAE)G41400(UNS) 42 Cr Mo(yB)24 Cr MoV(yB)12 Cr1 MoV(yB)A356- Gr9(ASTM)A405-P24 15 Cr Mo1V(yB旧)A193-B16(ASTM) 40Cr2MoV(yB旧)A217-WC1(铸) (ASTM)A217-WC6(铸)(ASTM) ZG20 Cr MoVA217-WC9(铸)(ASTM) ZG15Cr1 MoVA217-C5(铸) (ASTM) ZG2 Cr5 MoA182-F5 (锻) (ASTM)501(AISI)502(AISI)51501(SAE)S50100(UNS)S50200(UNS) 1 Cr5 Mo(GB)(三)不锈钢美国中国410(AISI)S41008(UNS) 0 Cr13(GB)430(AISI)51430 (SAE)CB-30(ACI) S43000(UNS)A276-430 (ASTM) 1 Cr17(GB)403(AISI)S40300(UNS)A276-403,410A182-F6a 1 Cr13(GB)420(AISI)51210 (SAE)CA-15 S42000(UNS)A276-420(ASTM) 2 Cr13(GB)420~(AISI)CA-40(ACI) 3 Cr13(GB)4 Cr13(GB)A276-440C(ASTM) 9 Cr18(GB)304(AISI)30304 (SAE)CF-8(ACI) S30400(UNS)A182-F304A276-304A193-B8,A194-8,A320-B8,B8A(ASTM) 0 Cr18Ni9(GB)A351-CF8(铸)(ASTM)A296-CF8(铸) ZG0 Cr18Ni19302(AISI)30302(SAE)CF-20(ACI) S30200(UNS) 1 Cr18Ni9(GB) 321(AISI)30321 (SAE)S32100(UNS)A182-F321A193-B8T(ASTM)A276-321 0Cr18Ni9Ti(GB)1A182-F316A276-316(ASTM)A193-B8MA194-8M 0Cr18Ni12Mo2Ti(GB)1351-CF8M(铸)(ASTM)A296-CF8M(铸) ZGoCr18Ni12Mo2Ti347(AISI)30347(SAE)S34700(UNS)A182-F347A193-B8C (ASTM)A276-347 1Cr18Ni11Nb(GB)(四)超低碳不锈钢美国中国304L(AISI)30304L (SAE)S30403(UNS)A182-F304L(ASTM)A276-304L 00 Cr18Ni10A351-CF3(铸)(ASTM)A296-CF3(铸) ZG00 Cr18Ni10316L(ALSI)30316L (SAE)S31603(UNS)A182-F316L(ASTM)A276-316L 00Cr17Ni14Mo2A351-CF3M(铸)(ASTM)A296-CF3M(铸) ZG00Cr17Ni14Mo2(五)低温钢美国中国适应温度/℃A352-LCB(铸) (ASTM) -46A350-LF2(锻) (ASTM)A352-LC1(铸) (ASTM) -60A352-LC2(铸) (ASTM) -73LC3A352- (铸) (ASTM)LC4 -101A350-LF3(锻) (ASTM)A351-CF8 (铸)(ASTM)A296-CF8 (铸) ZG0 Cr18Ni9 -196A351-CF8M(铸)(ASTM)A296-CF8M(铸) ZG0Cr18Ni12Mo2Ti -196 A182-F304(锻) (ASTM) 0 Cr18Ni9 -196 A182-F316(锻) (ASTM) 0Cr18Ni12Mo2Ti1 -196(六)弹簧钢美国中国C1065(AISI)1065(SAE)G10650(UNS) 65(YB)1084(AISI,SAE)G10840(UNS) 85(YB)9260(AISI,SAE)G92600(UNS) 60Si2Mn(yB旧)9260(AISI,SAE)G92600(UNS) 63Si2Mn(yB旧)6150(AISI)G65100(UNS) 50CrVA(yB)(七)灰铸铁美国中国HT150(GB)ASTMA126-ClassA HT200(GB)ASTMA126-ClassB HT250(GB)HT300(GB)HT350(GB)(八)球墨铸铁美国中国QT400-17(GB)QT420-10(GB)(九)可锻铸铁美国中国ASTMA47-32510 KTH300-6(GB)KTH330-8(GB)KTH350-10(GB)KTH370-12(GB)(十)黄青铜铸件美国中国ASTMB147-A110y No.7AASTMB147-A110y No.8AASTMB147-A110y No.8BASTMB145-A110y No.5AASTMB143-A110y No.1B ZCuSn8 Zn4 ASTMB143-A110y No.1A ZCuSn10 Zn2 ASTMB62-’52ZCuSn5Zn5.5ASTMB61-’52(十一)黄铜棒美国中国ASTMB283-Forging BrassASTMB21-A110yA、B、CASTMB138-A110 yA,B。
Designation:F2833−11Standard Specification forCorrosion Protective Fastener Coatings with Zinc Rich Base Coat and Aluminum Organic/Inorganic Type1This standard is issued under thefixed designation F2833;the number immediately following the designation indicates the year of 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.1.Scope1.1This specification covers the basic requirements for chromium-free fastener coatings that combine an inorganic zinc-rich basecoat with an aluminum-rich topcoat that contains an integrated lubricant.1.2These coatings are applied by conventional dip-spin, dip-drain,or spray methods to ferrous parts which can be handled through a cleaning,or phosphate,coating,and baking operation.Phosphating or shot blast is required to clean and prepare the surface of the steel.These coatings are bake cured at temperatures up to500°F.N OTE1—If used,phosphate to be used in accordance with Specification F1137,grade0.1.3Units—The values stated in inch-pound units are to be regarded as standard.No other units of measurement are included in this standard.1.4This standard does not purport to address all of the safety concerns,if any,associated with its use.It is the responsibility of the user of this standard to establish appro-priate safety and health practices and determine the applica-bility of regulatory limitations prior to use.2.Referenced Documents2.1ASTM Standards:2B117Practice for Operating Salt Spray(Fog)ApparatusD610Practice for Evaluating Degree of Rusting on Painted Steel SurfacesD3359Test Methods for Measuring Adhesion by Tape Test F606Test Methods for Determining the Mechanical Proper-ties of Externally and Internally Threaded Fasteners, Washers,Direct Tension Indicators,and RivetsF606M Test Methods for Determining the Mechanical Prop-erties of Externally and Internally Threaded Fasteners, Washers,and Rivets(Metric)F1137Specification for Phosphate/Oil Corrosion Protective Coatings for FastenersF1470Practice for Fastener Sampling for Specified Me-chanical Properties and Performance InspectionF1624Test Method for Measurement of Hydrogen Em-brittlement Threshold in Steel by the Incremental Step Loading TechniqueF1789Terminology for F16Mechanical FastenersF1940Test Method for Process Control Verification to Prevent Hydrogen Embrittlement in Plated or Coated Fasteners3.Classification3.1When the zinc phosphate option is used,its coating weight shall be in the range of8-20g/square meter.If used, phosphate to be used in accordance to Specification F1137 grade0.3.2These coatings are classified into5different types: 3.2.1Grade1—requires a minimum basecoat thickness of 0.27mils applied in one coat.An organic topcoat with an integrated lubricant is applied at a minimum thickness of0.20 mils in one coat and;with no additional layers.3.2.2Grade2—requires a minimum basecoat thickness of 0.27mils applied in two coats bulk or one coat sprayed.An organic topcoat with an integrated lubricant is applied at a minimum thickness of0.20mils in one coat;with no additional layers.3.2.3Grade3—requires a minimum basecoat thickness of 0.27mils applied in one coat.This basecoat is dark gray in color.A black organic topcoat with an integrated lubricant is applied at a minimum thickness of0.20mils in two coats bulk or one coat sprayed;with no additional layers.3.2.4Grade4—requires a minimum basecoat thickness of 0.27mils applied in one coat.An inorganic topcoat with an integrated lubricant is applied at a minimum thickness of0.20 mils and an integrated lubricant in one coat;with no additional layers.3.2.5Grade5—requires a minimum basecoat thickness of 0.27mils applied in one coat.An organic pigmented topcoat1This specification is under the jurisdiction of ASTM Committee F16onFasteners and is the direct responsibility of Subcommittee F16.03on Coatings onFasteners.Current edition approved Feb.1,2011.Published February2011.DOI:10.1520/F2833–11.2For referenced ASTM standards,visit the ASTM website,,orcontact ASTM Customer Service at service@.For Annual Book of ASTMStandards volume information,refer to the standard’s Document Summary page onthe ASTM website.Copyright©ASTM International,100Barr Harbor Drive,PO Box C700,West Conshohocken,PA19428-2959.United Stateswith an integrated lubricant is applied at a minimum thickness of 0.20mils in one coat for additional corrosion protection with no additional layers.4.Ordering Information4.1Orders for material in accordance with this specification shall include the following information:4.1.1Quantity of parts,4.1.2Color of coating,4.1.3Grade of coating (see Table 1),4.1.4Any additions to specifications as agreed upon by the purchaser and the supplier,and4.1.5Certification and test report requirements.5.Performance Requirements5.1Appearance—The coating shall have a uniform appear-ance free from tears and other discontinuities which may affect the appearance or performance,or both,of the coating.5.2Adhesion—When practical,the coating shall show less than 5%removal following the tape adhesion test in6.3.Due to the nature of the coating,some removal is expected,but removal of the coating that exposes the substrate indicates poor adhesion and is cause for rejection.5.3Corrosion Resistance—The coating shall be capable of withstanding exposure to salt spray test (SST)for the minimum hours (h)specified in Table 1.Unless otherwise defined,acceptable corrosion resistance shall be Rust Grade 6or higher (see Test Method D610for definition)on significant surfaces (see Terminology F1789for definition).5.4Blisters—There shall be no signs of blisters after testing in accordance with6.1.5.5Thread Fit—The coating shall not have an adverse effect on normal installation and removal practices as determined by the proper GO thread gauge.5.5.1The thickness of the coating is limited by the basic thread size (3A GO gauge for external threads 6h for metric product,2B GO gauge for internal threads,6H for metric product).Where greater thickness is necessary,the internal threads may be produced oversized (before coating)providing the finished product (after coating)meets all the specifiedmechanical properties.Where mechanical properties are not specified,oversizing is subject to the approval of the purchaser.6.Test Methods6.1Corrosion—Corrosion resistance shall be tested in ac-cordance with Practice B117followed by Test Method D610to rate the amount of corrosion.6.2Coating Thickness—The coating thickness shall be de-termined by magnetic induction,X-ray fluorescence spectros-copy,microscopic examination of a cross-section taken per-pendicular to the significant surfaces,or weigh-strip-weigh method.When using magnetic induction,or X-ray fluores-cence,an average of ten measurements on the flat surface of one part shall be used.N OTE 2—The weigh-strip-weigh method involves weighing the test specimen before and after the coating is stripped.The method requires a reagent that does not attack the base metal (for example,20%NaOH).6.3Adhesion—Where practical,adhesion of the coating shall be tested in accordance with Test Methods D3359Scribe-Grid Test.Determination if base material is exposed may be done by visually inspecting the part,or exposing the part to salt spray test (see Practice B117)for 96h and observing if red rust occurs.6.4Hydrogen Embrittlement—When specified in the pur-chase order,testing shall be conducted in accordance with Test Methods F606,or F1940.(See also,Test Methods F606M .)6.4.1In the event that hardness reductions occur in test specimens due to coating curing times and temperatures,testing per shall be conducted alternatively in accordance with F1624.7.Sampling7.1Sampling for testing shall be conducted based on lot size in accordance with Practice F1470.8.Rejection and Rehearing8.1Materials that fail to conform to the requirements of this specification shall be rejected.9.Keywords9.1aluminum;chromium;coating;corrosion;dip spin;fasteners;protection;resistance;rust;sealer;zincTABLE 1Coating PropertiesGrade Topcoat type Total number of coating layersAverage Coating Thickness (mil)Average Coating Weight (g/m 3)Minimum SSThrs 1Organic 20.47–0.5932–408402Organic 30.47–0.7132–5112003Organic/black 30.47–0.7137–418404Inorganic20.47–0.5934–4110005Organic/various colors20.47–0.5932–39840ASTM International takes no position respecting the validity of any patent rights asserted in connection with any item mentioned in this ers of this standard are expressly advised that determination of the validity of any such patent rights,and the risk of infringement of such rights,are entirely their own responsibility.This standard is subject to revision at any time by the responsible technical committee and must be reviewed everyfive years and if not revised,either reapproved or withdrawn.Your comments are invited either for revision of this standard or for additional standards and should be addressed to ASTM International Headquarters.Your comments will receive careful consideration at a meeting of the responsible technical committee,which you may attend.If you feel that your comments have not received a fair hearing you should make your views known to the ASTM Committee on Standards,at the address shown below.This standard is copyrighted by ASTM International,100Barr Harbor Drive,PO Box C700,West Conshohocken,PA19428-2959, United States.Individual reprints(single or multiple copies)of this standard may be obtained by contacting ASTM at the above address or at610-832-9585(phone),610-832-9555(fax),or service@(e-mail);or through the ASTM website ().Permission rights to photocopy the standard may also be secured from the ASTM website(/ COPYRIGHT/).。
Designation:B283–09Standard Specification forCopper and Copper-Alloy Die Forgings(Hot-Pressed)1This standard is issued under thefixed designation B283;the number immediately following the designation indicates the year of 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 Department of Defense.1.Scope*1.1This specification establishes the requirements for cop-per and copper alloy die forgings produced by the hot pressing method.The following copper and copper alloys are included: Copper or Copper AlloyUNS C11000copperC14500copper-telluriumC14700copper-sulfurC36500leaded Muntz metalC37000free-cutting Muntz metalC37700forging brassC46400naval brassC48200medium leaded naval brassC48500leaded naval brassC61900aluminum bronzeC62300aluminum bronze,9%C63000aluminum-nickel bronzeC63200aluminum-nickel bronzeC64200aluminum-silicon bronzeC64210aluminum-silicon bronze,6.7%C65500high-silicon bronze(A)C67500manganese bronze(A)C67600...C69300copper-zinc-siliconC70620copper-nickel90-10C71520copper-nickel70-30C77400nickel silver,45-101.2Units—The values stated in inch-pound units are to be regarded as standard.The values given in parentheses are mathematical conversions to SI units that are provided for information only and are not considered standard.N OTE1—Nominal composition and relative forgeability ratings are given in Appendix X1.Copper-nickel alloys C70620and C71520are intended for welded applications with seawater exposure.N OTE2—Wrought product intended for hot forging is described in Specification B124/B124M.1.3The following safety caveat pertains only to Section10 of this specification.This standard does not purport to address all of the safety concerns,if any,associated with its use.It is the responsibility of the user of this standard to establish appropriate safety and health practices and determine the applicability of regulatory limitations prior to use.2.Referenced Documents2.1ASTM Standards:2B124/B124M Specification for Copper and Copper Alloy Forging Rod,Bar,and ShapesB249/B249M Specification for General Requirements for Wrought Copper and Copper-Alloy Rod,Bar,Shapes and ForgingsB846Terminology for Copper and Copper AlloysE8Test Methods for Tension Testing of Metallic Materials E62Test Methods for Chemical Analysis of Copper and Copper Alloys(Photometric Methods)E75Test Methods for Chemical Analysis of Copper-Nickel and Copper-Nickel-Zinc AlloysE478Test Methods for Chemical Analysis of Copper Alloys2.2ISO Standard:7602Determination of Tellurium Content(High Content)—Flame Atomic Absorption Spectrometric Method32.3Military Standards:MIL-STD-792Identification Marking Requirements for Special Purpose Components4NA VSEA T9074-AS-GIB-010/271Requirements for Non-destructive Testing Method43.General Requirements3.1The following sections of Specification B249/B249M constitute a part of this specification:3.1.1Terminology,3.1.2Materials and Manufacture,3.1.3Workmanship,Finish and Appearance,1This specification is under the jurisdiction of ASTM Committee B05on Copper and Copper Alloys and is the direct responsibility of Subcommittee B05.02on Rod, Bar,Wire,Shapes and Forgings.Current edition approved April1,2009.Published May2009.Originally approved st previous edition approved in2008as B283–08a.2For referenced ASTM standards,visit the ASTM website,,or contact ASTM Customer Service at service@.For Annual Book of ASTM Standards volume information,refer to the standard’s Document Summary page on the ASTM website.3Available from American National Standards Institute(ANSI),25W.43rd St., 4th Floor,New York,NY10036,.4Available from Standardization Documents Order Desk,DODSSP,Bldg.4, Section D,700Robbins Ave.,Philadelphia,PA19111-5098,http:// .*A Summary of Changes section appears at the end of this standard. Copyright©ASTM International,100Barr Harbor Drive,PO Box C700,West Conshohocken,PA19428-2959,United States.3.1.4Sampling,3.1.5Number of Tests and Retests,3.1.6Specimen Preparation,3.1.7Test Methods,3.1.8Significance of Numerical Limits,3.1.9Inspection,3.1.10Rejection and Rehearing,3.1.11Certification,3.1.12Test Reports,3.1.13Packaging and Package Marking,and3.1.14Supplementary Requirements.3.1.15In addition,when a section with a title identical to one of those referenced in3.1,above,appears in this specifi-cation,it contains additional requirements that supplement those appearing in Specification B249/B249M.4.Terminology4.1Definitions:4.1.1For definitions of terms related to copper and copper alloys,refer to Terminology B846.4.2Definition of Term Specific to This Standard:4.2.1hot pressed forging,n—a product made by pressing a heated blank or section of wrought or cast copper or copper alloy in a closed impression die.5.Ordering Information5.1Include the following information when placing orders for products to this specification,as applicable:5.1.1ASTM designation and year of issue,5.1.2Copper or Copper Alloy UNS No.designation (Scope),5.1.3Drawing showing the shape dimensions and toler-ances(Dimensions and Permissible Variations),5.1.4Temper(as specified herein),5.1.5Quantity:total weight or number of pieces for each form,temper,and copper or copper alloy,5.1.6When product is purchased for agencies of the U.S. government(as specified herein),and5.1.7When product must adhere to the requirements of ASME Boiler and Pressure Vessel Code(Mechanical Property Requirements).5.2The following requirements are optional and shall be specified in the contract or purchase order.5.2.1Certification(as specified herein and Supplementary Requirements),5.2.2Mill test report(as specified in B249/B249M),and 5.2.3Ultrasonic inspection report(Supplementary Require-ments).6.Material and Manufacture6.1Materials:6.1.1The material of manufacture shall be a form of rods, billets,or blanks cut from cast or wrought material of one of the copper or copper alloys listed in the Scope of this specification and of purity and soundness as to be suitable for processing in to the products prescribed herein.6.1.2In the event heat identification or traceability is required,the purchaser shall specify the details desired.N OTE3—Due to the discontinuous nature of the processing of castings into wrought products,it is not always practical to identify specific casting analysis with a specific quantity offinished material.6.2Manufacture:6.2.1The product shall be manufactured by hot pressing material between the upper and lower sections of a set of dies conforming to the configuration defined by the purchaser’s submitted drawings.6.2.2Product of Copper Alloy UNS No.C63000and C63200shall be heat treated(as specified herein).7.Chemical Composition7.1The material shall conform to the chemical composition requirements in Table1for the Copper or Copper Alloy UNS No.designation specified in the ordering information.7.2These composition limits do not preclude the presence of other elements.By agreement between manufacturer and purchaser,limits may be established and analysis required for unnamed elements.7.2.1For alloys in which zinc is listed as a remainder,zinc is the difference between the sum of results for all elements determined and100%.7.2.2For alloys in which copper is listed as the remainder, copper is the difference between the sum of results of all elements determined and100%.7.3When all elements in Table1are determined for Copper Alloy UNS No.C36500,C37000,C46400,C48200,C48500, the sum of results shall be99.6%min,for all other alloys the sum of results shall be99.5%min.8.Temper8.1The standard tempers for products described in this specification are as follows:8.1.1As hot forged-air cooled M10,8.1.2As forged-quenched M11,8.1.3Hot forged and annealed O20.8.2UNS Alloy Nos.C63000and C63200shall be furnished as:8.2.1Quench hardened and temper annealed,TQ50.8.3Alloys C70620and C71520shall be furnished in the following tempers:8.3.1As hot forged-air cooled M10,unless,8.3.2Hot forged and annealed O20is specified.8.4Other tempers,shall be subjected to agreement between the manufacturer and the purchaser.9.Mechanical Property Requirements9.1Mechanical property requirements are subject to agree-ment between the manufacturer and the purchaser.9.2Product furnished to this specification for UNS Alloy No.C70620and C71520and specified to meet the require-ments of the ASME Boiler and Pressure Vessel Code shall conform to the tensile requirements prescribed in Table2, when tested in accordance with Test Methods E8.9.2.1Acceptance or rejection based upon mechanical prop-erties for UNS Alloy No.C70620and C71520shall depend only on tensilestrength. B283–0910.Heat Treatment10.1Product produced from Copper Alloy UNS No.C63200shall be heat treated as follows:10.1.1Heat to 1550°F (843°C)minimum for 1h minimum and quench in water or other suitable medium.10.1.2Temper Anneal at 1300625°F (704614°C)for 3to 9h as required to meet mechanical properties.11.Special Government Requirements11.1Product purchased for agencies of the ernment shall conform to the additional requirements prescribed in the Supplementary Requirements section of this specification.12.Dimensions and Permissible Variations12.1The dimensions and tolerances for forgings shall be those agreed upon between the manufacturer and the purchaser,and such dimensions and tolerances shall be specified on the drawings which form a part of the contract or purchase order.N OTE 4—Typical tolerances commonly used for forgings are shown in Table X2.1.13.Test Methods13.1Chemical Analysis :13.1.1In case of disagreement,determine the composition using the following methods:Element ASTM Test Method Aluminum E 478Arsenic E 62Copper E 478Iron <1.3%E 478,E 75for CuNi >1.3%E 478,E 75for CuNi LeadE 478(AA)ManganeseE 62,E 75for CuNiNickel <5%E 478(photometric)>5%E 478(gravimetric)Phospho-rus E 62Silicon E 62(perchloric acid)Tin <1.3%E 478>1.3%E 478Zinc<2%E 478(AA)>2%E 478(titrimetric)ISO Test Method 7602Tellurium __________N OTE —<=less than:>=greater than13.1.2Test method(s)to be followed for the determination of element(s)resulting from contractual or purchase order agreement shall be as agreed upon between the manufacturer or supplier and purchaser.14.Certification14.1Certification to this specification is mandatory for product purchased for ASME Boiler and Pressure Vessel applications.15.Keywords15.1copper and copper alloy die forgings (hot pressed);die forgings (hot pressed);UNS No.C11000;UNS No.C14500;UNS No.C14700;UNS No.C36500;UNS No.C37000;UNS No.C37700;UNS No.C46400;UNS No.C48200;UNS No.C48500;UNS No.C61900;UNS No.C62300;UNS No.C63000;UNS No.C63200;UNS No.C64200;UNS No.C64210;UNS No.C65500;UNS No.C67500;UNS No.C67600;UNS No.C69300;UNS No.C70620;UNS No.C71520;UNS No.C77400TABLE 2Tensile RequirementsDiameter or Section Thickness,in.(mm)Temper Designation Standard FormerTensile Strength,min Yield Strength at 0.5%Extension Under Load,min Elongation in 43Diameter or Thickness of Specimen,min,%ksi(MPa A )ksi(MPa A )Copper Alloy UNS No.C37700Up to 11⁄2(38.1),incl M10As Hot Forged–Air Cooled 50(345)18(124)25Over 11⁄2(38.1)M10As Hot Forged–Air Cooled46(317)15(103)30Copper Alloy UNS No.C64200Up to 11⁄2(38.1),incl M10As Hot Forged–Air Cooled 70(483)25(172)30Over 11⁄2(38.1)M10As Hot Forged–Air Cooled68(469)23(156)35Copper Alloy UNS Nos.C46400,C48200and C48500All sizesM10As Hot Forged–Air Cooled52(358)22(152)25Copper Alloy UNS No.C69300All sizesM10As Hot Forged-Air Cooled65(450)26(180)15Copper Alloy UNS No.C70620Up to 6(152.3),incl M10As Hot Forged–Air Cooled 45(310)18(124)30Over 6(152.3)M10As Hot Forged–Air Cooled 40(276)15(103)30All sizesO20Hot Forged and Annealed40(276)15(103)30Copper Alloy UNS No.C71520Up to 6(152.3),incl M10As Hot Forged –Air Cooled 50(345)20(138)30Over 6(152.3)M10As Hot Forged –Air Cooled 45(310)18(124)30All sizesO20Hot Forged and Annealed 45(310)18(124)30ASee Appendix X4.SUPPLEMENTARY REQUIREMENTSThe following supplementary requirements shall apply only when specified by the purchaser in the inquiry,contract or order,for agencies of the ernment.S1.Supplementary Requirements S1,S2,and S4of ASTM B249/B249M shall apply.S2.Identification Marking—Individual forgings shall be marked with the producer’s name or trademark,this ASTM specification number,the UNS number,and the heat number or serial number.The method and location of marking shall be in accordance with MIL-STD-792.If approved by the purchaser, the forgings may be bundled or boxed and each bundle or box provided with a metal or oil-proof tag showing the above information.S3.Sampling—The lot size,portion size,and selection of sample pieces shall be as follows:S3.1Lot Size—For forgings weighing250lbs(114kg)or less,a lot shall be2000lbs(909kg)or less,and shall consist of forgings of the same design and alloy forged from the same material heat and heat treated at the same time.For forgings exceeding250lbs(114kg),each individual forging shall constitute a lot.S3.2Portion Size—For forgings less than250lbs(114kg), two forgings per lot shall be selected for tensile testing.Tensile tests shall be performed on each forging over250lbs(114kg). S3.3Chemical Analysis—If heat identification is required, one sample for chemical analysis shall be taken for each heat at the time of pouring or from semifinished orfinished product. S3.4Tensile Testing—The tensile specimens shall be taken from integral forging prolongations or shall be removed from the forgings by trepanning.Alternatively,samples may be taken from separately forged test bars of the same heat as the forgings in the lot provided the wall thickness and amount of working for the test bar are equivalent to those for the forgings. The axis of the tensile specimen shall be located at any point midway between the center and the surface of solid forgings and at any point midway between the inner and outer surfaces of the wall of hollow forgings,and shall be parallel to the direction of greatest grainflow to the greatest extent possible. S4.Liquid Penetrant Inspection—When specified by the purchaser,each piece of each lot shall be inspected in accor-dance with NA VSEA T9074-AS-GIB-101/271.S5.Ultrasonic Inspection—When specified by the pur-chaser,each piece of each lot shall be inspected.S5.1General Requirements—Ultrasonic testing shall be performed in accordance with NA VSEA T9074-AS-GIB-101/ 271.Acoustic compatibility between the production material and the calibration standard material shall be within75%.If the acoustic compatibility is within25%,no gain compensa-tion is required for the examination.If acoustic compatibility difference is between25and75%,a change in the gain or dB controls shall be accomplished to compensate for the differ-ences in acoustic compatibility.This method cannot be used if the ultrasonic noise level exceeds50%of the rejection value. S5.2Calibration:S5.2.1Shear Wave—The shear wave test shall be calibrated on two notches,one notch cut into the inside and one into the outside surface.The notches shall be cut axially and shall have a depth of5%of the material thickness or1⁄4in.(6.4mm), whichever is less.Notch length shall not exceed1in.(25.4 mm).Notches shall be made either in the piece to be examined or in a separate defect-free specimen of the same size (within61⁄8in.(3.18mm)),shape,material,and condition,or acoustically similar material.The position and amplitude of the response from each notch shall be marked on the instrument screen or a transparent overlay,and these marks shall be used as the evaluation reference.Indications that appear between these points shall be evaluated on the basis of a straight line joining the two peak amplitudes.S5.2.2Longitudinal Wave—The longitudinal wave test shall be calibrated on aflat-bottomed reference hole of a given diameter in accordance with Table S5.1for specified material thickness drilled either into the piece to be tested or into a separate defect-free specimen of the same size(within61⁄8in.(3.18mm)),shape,material,and condition or acoustically similar material.Holes are to be drilled to midsection and the bottom of the hole shall be parallel to the entrant surface.The ultrasonic test instrument shall be adjusted so that the response from the reference hole shall not be less than25%and not more than75%of screen height.S5.2.3Recalibration—During quality conformance inspec-tion,any realignment of the search unit that will cause a decrease in the calibrated sensitivity and resolution,or both,or any change in search unit,couplant,instrument settings,or scanning speed from that used for calibration shall require recalibration.Recalibration shall be performed at least once per 8-h shift.S5.3Procedure:S5.3.1Ring and Hollow Round Products—Rings and other hollow cylindrical products shall be tested using the shear wave method by the contact or immersion technique.The shear wave entrant angle shall be such to ensure reflection from the notch or notches used in calibration.For contact testing,the search unit shall befitted with a wedge or shoe machined tofit the curvature of the piece being inspected.The product also shall be inspected with a longitudinal wave test from the external circumferential and end surfaces.S5.3.2Disk or Pancake Forgings—Disk or pancake forg-ings shall be inspected with a longitudinal wave technique from both parallel surfaces.S5.4Acceptance Criteria:TABLE S5.1Ultrasonic Testing Reference Hole for Rod,Bar,DiskPancake Forgings,and ForgingsMaterial Thickness,in.(mm)Hole Diameter,in.(mm)Up to and including6(152)1⁄8(3.18)Over6(152)and including16(406)1⁄4(6.4)Over16(406)As agreeduponS5.4.1Shear Wave —Any material that produces indications equal to or larger than the response from the reference notch or higher than the straight line joining the two peak amplitudes shall be rejected.S5.4.2Longitudinal Wave —Any material that produces in-dications equal to or larger than the response from the reference hole or that produces a complete loss of back reflection shall be rejected.Material shall be tested using a square,rectangular,or circular transducer having an effectivearea of 1in.2or less,but no dimension shall be smaller than the diameter of the reference hole.In the event of disagreement on the degree of back reflection loss,it shall be determined by the contact method using a 1-to 11⁄8-in.(25.4-to 28.6-mm)diameter transducer or one whose area falls within this range.S5.4.3Reference Notch Removal —If reference notches or flat-bottomed holes are made in the material to be tested,they shall be so located that their subsequent removal will not impair the suitability of the material for its intended use.APPENDIXES(Nonmandatory Information)X1.NOMINAL COMPOSITION AND RELATIVE FORGEABILITY RATINGSX1.1The nominal composition of the various forging materials are shown in Table X1.1.X2.DIMENSIONAL TOLERANCESX2.1The data in Table X2.1do not constitute a part of this specification.They are given merely to indicate to the pur-chaser the various forging types and some dimensional toler-ances used on commercially designed hot-pressed forgings up to 2lbs (0.91kg)in weight.For tolerances applicable to heavier forgings,the manufacturers should be consulted.TABLE X1.1Nominal Compositions and Forgeability RatingsCopper orCopper Alloy UNS No.Nominal Composition,%Forgeability Rating ACopper Lead Tin Iron Nickel Aluminum Silicon ManganeseZinc Sulfur Tellu-rium PhosphorusC11000100.................................65C1450099.45...........................0.55...65C1470099.5........................0.35......65C36500600.6..................39.4.........100C37000601..................39.........100C37700602..................38.........100C4640060...0.8...............39.2.........90C48200600.70.8...............38.5.........90C4850060 1.80.8...............37.4.........90C6190087.5...... 3.5...9..................75C6230088......3...9..................75C6300081......3510...1............75C6320081......4 4.59... 1.5............75C6420091............72...............75C6421091.3............ 6.72...............75C6550096......B......390B.........40C6750058.5...11.........0.1039.4.........80C6760058.50.7511.........0.1039.6.........80C6930075.0............... 3.0...21.9......0.1095C7062086.5...... 1.410.0......1............75C7152065.0......0.731.0......1............40C7740045...... (10).........45.........85ARelative forgeability rating takes into consideration such variable factors as pressure,die wear,and plasticity (hot).Since it is impracticable to reduce these variables to common units,calibration in terms of a percentage of the most generally used alloy,forging brass (100%),is considered the most practical basis for such ratings.The values shown represent the general opinion and are intended for information to enable the designer to better understand the forging characteristics of these various alloys.Intricate parts are more likely to be available in alloys having a high rating.BOne or more of these elements may be present as specified in Table 2.X3.TYPICAL MECHANICAL PROPERTIESX3.1Mechanical properties of any forging are influenced by shape and size.Unless otherwise specified in the purchase order or specifically guaranteed by the manufacturer,accep-tance of forgings under this specification shall not depend on the mechanical properties determined by tension or hardness tests.(Frequently,the design of forgings will not permitTABLE X2.1Dimensional TolerancesTolerances,Plus and Minus,in.(mm)Except as Indicated ACopper or Copper Alloy UNS Nos.C11000C36500C37000C14500C37700C14700C46400C63000C61900C48200C77400C63200C62300C48500C65500C64200C67500C70620C64210C67600C71520C69300Forging types:Solid0.010(0.25)0.008(0.20)0.008(0.20)0.012(0.30)Solid,with symmetrical cavity 0.010(0.25)0.008(0.20)0.008(0.20)0.012(0.30)Solid,with eccentric cavity 0.012(0.30)0.008(0.20)0.008(0.20)0.012(0.30)Solid,deep extrusion 0.012(0.30)0.010(0.25)0.010(0.25)0.014(0.36)Hollow,deep extrusion0.012(0.30)0.010(0.25)0.010(0.25)0.014(0.36)Thin section,short (up to 6in.(152mm)incl.)0.012(0.30)0.010(0.25)0.010(0.25)0.014(0.36)Thin section,long (over 6in.(152mm)to 14in.(356mm)incl.)0.015(0.38)0.015(0.38)0.015(0.38)0.020(0.51)Thin section,round0.012(0.30)0.010(0.25)0.010(0.25)0.014(0.36)Draft angles,outside and inside 1to 5°1⁄2°1⁄2°1⁄2°1⁄2°Machining allowance (on one surface)1⁄32(0.79)1⁄32(0.79)1⁄32(0.79)1⁄32(0.79)Flatness (maximum deviation per inch)0.005(0.13)0.005(0.13)0.005(0.13)0.005(0.13)Concentricity (total indicator reading)0.030(0.76)0.020(0.51)0.030(0.76)0.030(0.76)Nominal web thickness:5⁄32(4.0)1⁄8(3.2)1⁄8(3.2)3⁄16(4.8)Tolerance1⁄64(0.40)1⁄64(0.40)1⁄64(0.40)1⁄64(0.40)Nominal fillet and radius:3⁄32(2.4)1⁄16(1.6)1⁄16(1.6)1⁄8(3.2)Tolerance1⁄64(0.40)1⁄64(0.40)1⁄64(0.40)1⁄64(0.40)Approximate flash thickness1⁄16(1.6)3⁄64(1.2)3⁄64(1.2)5⁄64(2.0)AIf tolerances all plus or all minus are desired,double the values given.TABLE X3.1Typical Mechanical Properties of Forgings as Hot Pressed,Temper M10,M11,or TQ50ACopper or Copper Alloy UNS No.0.505-in.(128-mm)Diameter Test SectionRockwell Hardness (Filed Surface,1⁄8-in.(3.18-mm)Chord,min)Tensile Strength Yield Strength(0.5%Extension Under Load)Elongation in 43Diameter,%F Scale B Scale ksi(MPa B)ksi (MPa B)C1100033(230)11(75)4037...C1450034(235)12(85)3540...C1470034(235)12(85)3540...C3650058(400)23(160)40...45C3700058(400)23(160)40...45C3770058(400)23(160)40...45C4640064(440)26(180)40...55C4820064(440)26(180)40...55C4850062(425)24(165)40...55C6190082(565)37(255)32...82C6230082(565)37(255)32...82C6300095(655)48(330)15...90C6320092(635)45(310)18...88C6420083(570)41(285)35...77C6421083(570)41(285)35...77C6550052(360)18(125)70...62C6750072(495)34(235)33...69C6760072(495)34(235)33...69C6930080(550)41(285)28...78C7152055(380)20(138)45...35C7740083(570)36(250)25...73A For Copper Alloy UNS Nos.C63000and C63200.BSee Appendix X4.adequate test sections.)Therefore,the data in Table X3.1donot constitute a part of this specification,and are given forgeneral information only.They are typical of forgings up to2lbs(0.91kg)in weight.X4.METRIC EQUIV ALENTSX4.1The SI unit for strength properties now shown is in accordance with the International System of Units(SI).The derived SI unit for force is the newton(N),which is defined as that force which when applied to a body having a mass of one kilogram gives it an acceleration of one metre per second squared(N=kg·m/s2).The derived SI unit for pressure or stress is the newton per square metre(N/m2),which has been named the pascal(Pa)by the General Conference on Weights and Measures.Since1ksi=6894757Pa,the metric equiva-lents are expressed as megapascal(MPa),which is the same as MN/m2and N/mm2.SUMMARY OF CHANGESCommittee B05has identified the location of selected changes to this standard since the last issue(B823–08a) that may impact the use of this standard.(Approved April1,2009.)(1)Changed lead levels for the following alloys:C69300from.10%to.09%max;C77400from.20%max to.09%max.Committee B05has identified the location of selected changes to this standard since the last issue(B283–08) that may impact the use of this standard.(Approved Oct.1,2008.)(1)Table1,Chemical Requirements:Change the C64200arsenic entry from.15%max to.09%max and the C64210arsenic entry from.15%max to.09%max.Committee B05has identified the location of selected changes to this specification since the last issue (B283–06)that may impact the use of this standard.(Approved May1,2008.)(1)Table1,revised the Copper incl Ag column Footnote C toinclude both phosphorus and tellurium.ASTM International takes no position respecting the validity of any patent rights asserted in connection with any item mentioned in this ers of this standard are expressly advised that determination of the validity of any such patent rights,and the riskof infringement of such rights,are entirely their own responsibility.This standard is subject to revision at any time by the responsible technical committee and must be reviewed everyfive years and if not revised,either reapproved or withdrawn.Your comments are invited either for revision of this standard or for additional standardsand should be addressed to ASTM International Headquarters.Your comments will receive careful consideration at a meeting of theresponsible technical committee,which you may attend.If you feel that your comments have not received a fair hearing you shouldmake your views known to the ASTM Committee on Standards,at the address shown below.This standard is copyrighted by ASTM International,100Barr Harbor Drive,PO Box C700,West Conshohocken,PA19428-2959, United States.Individual reprints(single or multiple copies)of this standard may be obtained by contacting ASTM at the aboveaddress or at610-832-9585(phone),610-832-9555(fax),or service@(e-mail);or through the ASTM website().。
ASTM B类标准目录字体大小:大- 中- 小isobook发表于07-11-25 23:07 阅读(2641) 评论(10) ASTM B100-03a 桥与其他结构用锻制铜合金支承板和膨胀板及薄板规格ASTM B1-01(2007) 冷拉铜丝规格ASTM B101-07 建筑用包铅薄铜薄板和带材规格ASTM B102-2000(2005) 铅和锡合金模铸件规格ASTM B103/B103M-07 磷铜中厚板、薄板、带材和轧制棒材规格ASTM B105-05 电导线用冷拉制铜合金线ASTM B106-1996(2002)e1 恒温器金属挠性的试验方法ASTM B107/B107M-07 镁合金挤压棒材、条材、型材、管和线材规格ASTM B108-06 铝合金永久型模铸件规格ASTM B111/B111M-04 铜和铜合金无缝冷凝管和套圈坯料规格ASTM B114-07 分流器与精密电阻器用薄板材料的温度-电阻常数的测试方法ASTM B115-00(2004) 电解铜规格ASTM B116-95(2007) 工业运输用9号深槽铜及8号铜制电车架空线ASTM B117-07 盐雾喷射器操作规程ASTM B121/B121M-01(2006) 含铅黄铜中厚板、薄板、带材和轧制棒材ASTM B122/B122M-06 铜镍锡合金、铜镍锌合金(镍银)和铜镍合金中厚板、薄板、带材及轧制棒材规格ASTM B124/B124M-06 铜和铜合金锻制线材、棒材和型材规格ASTM B127-05 镍铜合金板(UNS No.4400)中厚板、薄板和带材规格ASTM B129-07 铜锌合金弹壳火帽壳规格ASTM B130-02 商用弹头壳青铜带材ASTM B131-07 铜合金子弹壳帽规格ASTM B134/B134M-05 黄铜丝规格ASTM B135-02 标准无缝铜管ASTM B135M-00(2006) 无缝黄铜管规格(米制)ASTM B136-84(2003) 铝表面阳极镀层耐蚀性的测定方法ASTM B137-95(2004) 测量阳极镀铝层每单位重量的试验方法ASTM B138/B138M-06 锰青铜线材、棒材和型材规格ASTM B139/B139M-07 磷青铜线材、棒材和型材规格ASTM B140/B140M-07 铜锌铅(红铜或硬青铜)线材、棒材和型材规格ASTM B148-97(2003)e1 铝青铜砂型铸件规格ASTM B150/B150M-03 铝青铜线材、棒材和型材规格ASTM B151/B151M-05 铜镍锌合金(镍银)和铜镍线材及棒材规格ASTM B152/B152M-06a 铜薄板、中厚板和轧制棒材规格ASTM B153-05 铜与铜合金管及配管膨胀(针试验)试验法ASTM B154-05 铜和铜合金硝酸亚汞试验的试验方法ASTM B159/B159M-05 磷青铜丝技术规范ASTM B16/B16M-05 制螺钉机用易切削黄铜条材、棒材和型材ASTM B160-05 镍线材和棒材规格ASTM B161-05 镍无缝管规格ASTM B162-99(2005) 镍中厚板、薄板和带材规格ASTM B163-04 冷凝器和热交换器用无缝镍及镍合金管规格ASTM B164-03 镍铜合金线材、棒和丝规格ASTM B165-05 镍铜合金(UNS N04400)无缝管规格ASTM B166-06 镍铬铁合金(UNS N06600, N06601, N06603, N06690, N06693, N06025和N06045)和镍铬铁钼合金(UNS N06617)线材、棒材和丝规格ASTM B167-06 镍铬铁合金(UNS N06600、N06601、N06603、N06690、N06693、N06025和N06045)和镍铬钴钼合金(UNS N06617)无缝管规格ASTM B168-06 镍铬铁合金(UNS N06600、N06601、N06603、N06690、N06693、N06025和N06045)和镍铬钴钼合金(UNS N06617)中厚板、薄板及带材规格ASTM B169/B169M-05 铝青铜薄板、带材和轧制棒材规格ASTM B170-99(2004) 无氧电解铜精炼型材ASTM B171/B171M-04e1 压力容器、冷凝器和热交换器用铜合金中厚板及薄板规格ASTM B172-01a(2007)e1 电导线用成束绞绳铜导线ASTM B173-01a(2007)e1 导线用同芯多股绞绳铜导线ASTM B174-02(2007)e1 电导线用成束绞捻的铜导线ASTM B176-04 铜合金模铸件规格ASTM B177-01(2006)E1 工程镀铬指南ASTM B179-06 所有铸造工艺铸件用铝合金锭和溶融铝合金规格ASTM B183-79(2004)E1 电镀用低碳钢的制备规程ASTM B187/B187M-06 铜母线、线材和型材以及通用线材、棒材和型材规格ASTM B188-02 卫生设施用无缝铜管ASTM B189-05 电气用铅涂覆和铅合金涂覆软铜线的标准规范ASTM B19-05 铜锌合金薄板、带材、中厚板、棒材和盘片规格ASTM B193-02 电导线材料电阻率的测试方法ASTM B194-01e1 铜铍合金中厚板、薄板、带和轧制棒规格ASTM B196/B196M-07 铜铍合金条及棒ASTM B197/B197M-07 铜铍合金丝规格ASTM B199-07 镁合金永久型模铸件规格ASTM B2-00(2005)e1 中等硬度冷拉铜丝ASTM B200-85(2004) 钢及铁合金表面铅与铅锡合金电解沉积镀层规格ASTM B201-80(2004) 锌和镉表面铬酸盐涂层试验规程ASTM B206/B206M-07 铜镍锌合金(镍银)丝和铜镍合金丝规格ASTM B208-06 铜合金砂模、永久性成型、离心和连续铸造的铸件用拉力试验试样制备规程ASTM B209-07 铝及铝合金薄板和中厚板规格ASTM B209M-07 铝及铝合金薄板和中厚板规格(米制)ASTM B21/B21M-06 船用黄铜线材、棒材和型材规格ASTM B210-04 拉制铝与铝合金无缝管规格ASTM B210M-05 拉制无缝铝和铝合金管规格(米制)ASTM B211-03 铝与铝合金棒材、线材及丝规格ASTM B211M-03 铝与铝合金棒材、线材和丝规格(米制)ASTM B212-99(2006) 使用霍耳流动性测量仪漏斗的粉状金属粉末表面密度的试验方法ASTM B213-03 金属粉末流速的测试方法ASTM B214-07 金属粉末筛析试验方法ASTM B215-04 金属粉末取样规程ASTM B216-97(2003) 韧性火法精炼铜--精炼型材规格ASTM B22-02 桥梁和转台用青铜铸件规格ASTM B221-06 铝与铝合金挤压棒材、线材、丝、型材和管规格ASTM B221M-07 铝与铝合金挤压棒材、线材、丝、型材和管材规格(米制)ASTM B223-03 恒温器金属的弹性模量的测试方法(悬臂梁法)ASTM B224-04 铜的分类ASTM B226-04 有心的圆形同心绞捻铜导线ASTM B227-04 冷拉包铜钢丝ASTM B228-04 同心绞捻的包铜钢导线ASTM B229-04 同心绞捻的铜与包铜钢丝复合导线ASTM B230/B230M-07 电气用1350-H19型铝线ASTM B231/B231M-04 同心绞捻铝1350导线ASTM B232/B232M-01e1 涂覆钢芯加强的同心绞捻铝导线(ACSR)ASTM B233-97(2007) 电气用1350铝拉制坯料ASTM B233-97(2007) 电工用铝1350型拉制坯料规格ASTM B234-04 冷凝器和热交换器用拉制无缝铝和铝合金管规格ASTM B234M-04 冷凝器和热交换器用拉制无缝铝和铝合金管规格(米制)ASTM B236-07 电工用铝棒(母线)规格ASTM B236M-07 电工用铝棒材(母线)规格(米制)ASTM B237-01(2006) 精制锑规格ASTM B240-07 铸造件与模铸件用锌和锌铝合金锭规格ASTM B241/B241M-02 铝和铝合金无缝管和挤压无缝管规格ASTM B242-99(2004)E1 电镀用高碳钢的制备规程ASTM B243-06 粉末冶金名词术语ASTM B244-97(2002) 用涡流仪测量铝上阳极镀层厚度及非磁性基底金属上其它不导电镀层厚度的测量方法ASTM B246-05 电工用镀锡冷拉和中冷拉铜线规格ASTM B247-02a 铝和铝合金压锻件、手工锻件和轧制环锻件规格ASTM B247M-02a 铝合金压锻件、手工锻件和轧制环锻件规格(米制)ASTM B248-07 锻制铜和铜合金中厚板、薄板、带和轧制棒的一般技术要求规格ASTM B248M-07 锻造铜及铜合金板、薄板、带及轧制棒材(米制)ASTM B249/B249M-06 锻制熟铜和铜合金条材、棒材、型材和锻件的一般要求规格ASTM B250/B250M-07 锻造铜合金线通用要求规格ASTM B251-02e1 锻造铜和铜合金无缝管的一般技术要求规格ASTM B251M-97(2003) 锻造铜和铜合金无缝管的一般技术要求规格(米制)ASTM B252-92(2004) 电镀和转化涂层用锌合金压铸件的制备规程ASTM B253-87(2005)E1 电镀用铝合金的制备导则ASTM B254-92(2004)E1 不锈钢的处理及电镀规程ASTM B258-02 作电导体的实心圆导线的美国线规的标准公称直径和横截面积的技术规范ASTM B26/B26M-05 铝合金砂模铸件规格ASTM B263-04 多股绞合导线横截面积的测试方法ASTM B265-06b 钛和钛合金带材、薄板及中厚板规格ASTM B267-07 线绕电阻器用金属丝规格ASTM B271-06 铜基合金离心铸造件规格ASTM B272-07 有精制边缘的(轧制或拉制)的扁铜制品(扁丝或带)的规格ASTM B275-05 铸造和锻造某些有色金属及合金编码规程ASTM B276-05E1 硬质合金表面孔隙率的试验方法ASTM B277-95(2006) 电接触材料硬度的试验方法ASTM B279-04 制造磁导线用方形及矩形软裸铜线和铝线刚度的试验方法ASTM B280-03 空气调节及制冷用无缝铜管规格ASTM B281-88(2001) 电镀层和转化镀层用铜和铜基合金的制备规程ASTM B283-06 铜和铜合金模锻件(热压)规格ASTM B286-07 电气设备用铜连接线ASTM B29-03 精炼铅规格ASTM B294-92(2006) 硬质合金的硬度测试方法ASTM B296-03 铸造和锻造镁合金回火标志推荐规程ASTM B298-07 镀银的软的或退火的铜线ASTM B299-01 钛海绵规格ASTM B30-06a 铜合金锭规格ASTM B3-01(2007) 软的或退火的铜线ASTM B301-B301M-04 快削铜线材、棒材、丝和型材规格ASTM B302-02 标准尺寸无螺纹铜管规格ASTM B306-02 铜排放管(DWV)规格ASTM B308-B308M-02 铝合金6061-T6标准结构型材的规格ASTM B311-93(2002)E1 测定含2%以下孔隙度的粉未冶金(P/M)材料密度的试验方法ASTM B312-96(2002) 压实的金属粉末试样生坯强度的测试方法ASTM B313-B313M-02e1 焊接铝和铝合金圆管规格ASTM B315-06 无缝铜合金管和管子标准规范ASTM B316-B316M-02 铝和铝合金铆钉以及冷锻线和线材规格ASTM B317-B317M-07 电工用铝合金挤压条、棒、管、导管和结构型材规格(母线)ASTM B319-91(2004) 电镀用铅和铅合金制备导则ASTM B32-04 焊接用金属规格ASTM B320-60(2003)E1 电镀用铁铸件制备的推荐规程ASTM B322-99(2004) 电镀前金属的清洗规程ASTM B324-01(2007) 电气用矩形和方形铝线规格ASTM B327-01(2005) 制造锌模铸合金用主合金的规格ASTM B328-96(2003)E1 烧结金属结构零件和油浸轴承的密度、含油量与互连多孔性的试验方法ASTM B329-06 用斯科特容积计测定金属粉末及化合物表观密度的试验方法ASTM B330-07 金属粉末及相关化合物费歇尔数目的试验方法ASTM B33-04 气用镀锡软的或退火的铜线ASTM B331-95(2002) 单轴压缩的金属粉未可压缩性的试验方法ASTM B333-03 镍钼合金中厚板、薄板和带材规格ASTM B335-03 镍钼合金线材规格ASTM B338-06a 冷凝器和热交换器用钛与钛合金无缝管及焊接管规格ASTM B339-00(2005) 锡块规格ASTM B343-92a(2004)E1 镍电镀用镍的制备规程ASTM B344-01 电加热元件用拉制或轧制镍铬和镍铬铁合金规格ASTM B345-B345M-02 气体与油输送和配给管线系统用铝和铝合金无缝管及挤压管规格ASTM B348-06a 钛和钛合金棒材和坯规格ASTM B349-B349M-03 核设备用海绵锆和其他形态的原金属规格ASTM B350-B350M-02(2006) 核设备用锆和锆合金锭规格ASTM B351-B351M-07 核设备用热轧和冷加工精制锆与锆合金棒材、条材及线材规格ASTM B352-B352M-02(2006) 核设备用锆与锆合金薄板、带材及中厚板规格ASTM B353-07 核设施用锻制锆和锆合金无缝管与焊接管(除核燃料包壳外)规格ASTM B354-05 不绝缘的金属电导体的相关术语ASTM B355-06 软的或退火的镀镍铜丝ASTM B359-B359M-02(2006) 冷凝器及带集成散热片的热交换器的铜和铜合金无缝管规格ASTM B36-B36M-06 黄铜中厚板、薄板、带材和轧制棒材规格ASTM B360-01 限流器用冷拉铜毛细管规格ASTM B361-02 工厂制锻制铝和铝合金焊接配件规格ASTM B362-91(2003) 恒温金属螺旋形盘管的机械扭转率的试验方法ASTM B363-06a 无缝和焊接的非合金钛与钛合金焊接配件规格ASTM B364-96(2002) 钽和钽合金锭规格ASTM B365-98(2004) 钽和钽合金线材和丝规格ASTM B366-04be1 工厂制锻制镍和镍合金配件规格ASTM B367-06 钛和钛合金铸件规格ASTM B368-97(2003)E1 铜-加速醋酸盐水喷雾试验(CASS试验)的试验方法ASTM B369-06 铜镍合金铸件规格ASTM B370-03 建筑结构用铜薄板和带材规格ASTM B37-03 铁和钢制造用铝规格ASTM B371-B371M-06 铜锌硅合金线材规格ASTM B372-97(2003) 无缝铜及铜合金矩形波导管ASTM B373-00(2006) 电容器用铝箔规格ASTM B374-06 有关电镀的术语ASTM B379-04 增磷铜精炼型材ASTM B380-97(2002) 用涂膏耐蚀试验法的装饰电镀层的腐蚀试验方法ASTM B381-06a 钛和钛合金锻件规格ASTM B386-03 钼和钼合金中厚板、薄板、带材和箔规格ASTM B387-90(2001) 钼与钼合金棒、线材和丝规格ASTM B388-06 恒温金属薄板和带材的规格ASTM B389-81(2004) 恒温金属螺旋形线圈的热偏转率的测试方法ASTM B390-92(2006) 钨硬质合金表观晶粒尺寸及其分布的评定规程ASTM B391-03 铌和铌合金锭规格ASTM B392-03 铌和铌合金棒材、线材和丝规格ASTM B393-05 热交换器和冷凝器马蹄形弯头铜及铜合金无缝管规格ASTM B394-03 铌与铌合金无缝管和焊接管规格ASTM B395-B395M-02 热交换器和冷凝器马蹄形弯头铜及铜合金无缝管规格ASTM B39-79(2004) 镍的规格ASTM B398-B398M-02(2007) 电工用6201-T81铝合金丝规格ASTM B399-B399M-04 同心绞捻的6201-T81型铝合金导线ASTM B400-04 紧密的圆形同心绞捻的1350型铝导线规格ASTM B401-04 致密圆形钢芯加强同心绞捻铝导线规格(ACSR/COMP) ASTM B403-07 镁合金熔模铸件规格ASTM B406-96(2005) 硬质合金横向断裂强度的试验方法ASTM B407-04 无缝镍铁铬合金管规格ASTM B408-06 镍铁铬合金线材和棒材规格ASTM B409-06e1 镍铁铬合金中厚板、薄板和带材规格ASTM B411-B411M-06 铜镍硅合金线材和棒材规格ASTM B413-97a(2003) 精炼银规格ASTM B415-98(2007) 冷拉制包铝钢丝ASTM B416-98(2007) 同心绞捻包铝钢导线ASTM B417-00(2006)E1 用Carney漏斗的非自由流动金属粉末表观密度的试验方法ASTM B418-06 铸造和锻造的电镀锌阳极规格ASTM B42-02e1 标准尺寸的无缝铜管规格ASTM B422-06 铜铝硅钴合金、铜镍硅镁合金、铜镍硅合金、铜镍铝镁合金和铜镍锡合金薄板及带材规格ASTM B423-05 镍铁铬钼铜合金(UNS N08825和N08221)无缝管规格ASTM B424-05 镍铁铬钼铜合金中厚板、薄板和带材规格(UNS NO8825和NO8221)ASTM B425-99(2005) 镍铁铬钼铜合金(UNS N08825 和UNS N08221)线材和棒材规格ASTM B427-02 齿轮青铜合金铸件规格ASTM B428-93(2004) 矩形和方形铜与铜合金管扭转角的测试方法ASTM B429/B429M-06 挤压铝合金结构管规格ASTM B430-97(2006)E1 用比浊法测定耐火金属粉末的粒径分布的试验方法ASTM B432-04 包铜及包铜合金的钢中厚板规格ASTM B434-06 镍钼铬铁合金(UNS N10003, UNS N10242)中厚板、薄板和带材规格ASTM B435-06 UNS NO6002、UNS NO6230、UNS N12160 和UNS R30556中厚板、薄板和带材规格ASTM B438/B438M-05 烧结青铜轴承(油浸)规格ASTM B439-07 铁基粉末冶金轴承(油浸的)规格ASTM B43-98(2004) 无缝红铜管尺寸ASTM B440-00(2005) 镉规格ASTM B441-04 铜钴铍、铜镍铍和铜镍铅铍线材及棒材(UNS Nos. C17500, C17510和C17465) 规格ASTM B443-00(2005) 镍铬钼铌合金(UNS N06625)和镍铬钼硅合金(UNS N06219)中厚板、薄板及带材规格ASTM B444-06 镍铬钼钶合金(UNS NO6625)和镍铬钼硅合金(UNS N06219)管规格ASTM B446-03 镍铬钼铌合金(UNS NO6625)、镍铬钼硅合金(UNS N06219)和镍铬钼钨合金(UNS N06650)线材及棒材规格ASTM B447-07 焊接铜管规格ASTM B449-93(2004) 铝的铬酸盐处理规程ASTM B452-02 电子设备用包铜钢导线规格ASTM B453/B453M-05 铜锌铅合金(加铅黄铜)线材、棒材和型材规格ASTM B455-05 铜锌铅合金(加铅黄铜)挤压型材规格ASTM B456-03 铜+镍+铬及镍+铬的电解沉积镀层规格ASTM B457-67(2003) 测量铝表面阳极镀层阻力的方法ASTM B462-06 腐蚀高温作业用锻制或轧制UNS N06030、N06022、N06035、N06200、N06059、N06686、UNS NO8020、UNS NO8024、UNS NO8026和UNS NO8367N10276、N10665、N10675、N10629、N08031、N06045、N06025和R20033 合金管法兰、锻制配件、阀门和零件规格ASTM B463-04 UNS NO8020、UNS NO8026和UNS NO8024合金中厚板、薄板和带材规格ASTM B464-05 焊接的UNS NO8020、NO8026和NO8024合金管规格ASTM B465-04 铜铁合金中厚板、薄板、带材和轧制棒规格ASTM B466/B466M-03 铜镍无缝管规格ASTM B467-88(2003) 焊接铜镍合金管规格ASTM B468-04 UNS N08020、N08024和N08026焊接合金管规格ASTM B470-02(2007) 电子设备布线用电线用连接铜导线规格ASTM B472-04a UNS NO8020、UNS NO8024和UNS NO8026镍合金棒和丝规格ASTM B473-07 UNS NO8020、UNS NO8024和UNS NO8026镍合金棒和丝规格ASTM B474-03 电熔焊镍合金管规格ASTM B475-07 UNS NO8020、UNS NO8026和UNS NO8024镍合金编织圆丝规格ASTM B476-01(2006) 锻制贵金属电接触材料的一般要求规格ASTM B477-97(2002) 金银镍电接触合金规格ASTM B478-85(2003) 恒温金属横向弯曲的测试方法ASTM B479-06 与食品接触及其他用途的软质包装用退火铝及铝合金箔规格ASTM B47-95a(2007) 铜电车电线规格ASTM B48-00(2005)e1 电导线用矩形和正方形软裸铜线ASTM B480-88(2006) 电镀用镁和镁合金制备的规程ASTM B481-68(2003)E1 电镀用钛和钛合金制备的规程ASTM B482-85(2003) 电镀用钨和钨合金制备的规程ASTM B483-B483M-03 通用铝和铝合金拉制管规格ASTM B487-85(2007) 用横断面显微观察法测定金属及氧化层厚度的试验方法ASTM B488-01(2006) 工程用金电镀层规格ASTM B489-85(2003) 金属表面电解沉积和自动催化沉积金属镀层延伸性的弯曲试验规程ASTM B490-92(2003) 用微量计弯曲试验法测定电解沉积物延伸性的规程ASTM B491-B491M-06 通用铝与铝合金挤压圆管规格ASTM B493-01(2003) 锆和锆合金锻件规格ASTM B494-B494M-03 原生锆规格ASTM B495-05 锆和锆合金锭规格ASTM B496-04 紧密的圆形同心绞捻铜导线ASTM B497-00(2006) 测量闭合灭弧触点电压降的指南ASTM B498-B498M-98(2002) 钢芯铝线(ACSR)用镀锌钢芯线规格ASTM B49-98(2004) 电气用经回火的铜条材ASTM B499-96(2002) 用磁化法测量磁性基底金属材料的非磁化涂层厚度的试验方法ASTM B5-00(2005) 高导电性韧铜精制带材规格ASTM B500-B500M-98(2002) 钢芯加强的铝导线用镀金属层的钢芯线(ACSR)ASTM B501-04 电气用镀银包铜钢丝ASTM B502-02(2007) 包铝钢芯铝导线用包铝钢芯线规格ASTM B504-90(2007) 用电量测定法测量金属镀层厚度的试验方法ASTM B505-B505M-07 连续浇铸的铜基合金铸件规格ASTM B507-86(2003) 在机架上电镀机件的设计规程ASTM B508-97(2003) 柔性金属软管用的铜合金带材规范ASTM B511-01(2005) 镍铁铬硅合金棒材和型材规格ASTM B512-04 镍铬硅合金(UNS NO8330)坯段和棒规格ASTM B514-05 镍铁铬合金焊接管规格ASTM B515-95(2002) 焊接合金管(UNS N08120、UNS N08800、UNS N88810和UNS N08811)规格ASTM B516-03 焊接镍铁铬合金(UNS NO6600)管规格ASTM B517-05 焊接镍铁铬合金(UNS NO6600、UNS N06603、UNS N06025和UNS N06045)管规格ASTM B520-93(2007) 电子设备用镀锡包铜钢丝规格ASTM B521-98(2004) 钽和钽合金无缝管及焊接管规格ASTM B522-01(2006) 金银铂电接触合金规格ASTM B523-B523M-07 锆和锆合金无缝管及焊接管规格ASTM B524-B524M-99(2005) 铝合金芯增强的同心绞捻铝导线(ACAR-1380/6201)规格ASTM B527-06 测定金属粉末和化合物塔普密度的试验方法ASTM B528-05 金属粉末样品横向断裂强度的试验方法ASTM B530-02 用磁性法测量磁性和非磁性基底上的电解沉积镍层厚度的方法ASTM B532-85(2007) 电镀塑料表面外观规格ASTM B533-85(2004) 镀金属塑料抗斯裂强度的试验方法ASTM B534-01 铜钴铍合金和钢镍铍合金中厚板、薄板、带材及轧制棒材规格ASTM B535-06 镍铁铬硅合金(UNS NO8330和UNS NO8332)无缝管规格ASTM B536-07 镍铁铬硅合金(UNS NO8330和UNS NO8332)中厚板、薄板和带材规格ASTM B537-70(2007) 大气暴露下电镀面板评定规程ASTM B539-02e1 测量电接头(静触点)电阻的试验方法ASTM B540-97(2002) 电接触用钯合金规格ASTM B541-01(2006 电接触用金合金规格ASTM B542-07 有关电触点及其使用的术语ASTM B543-96(2003) 焊接的铜及铜合金热交换管ASTM B545-97(2004)E1 锡电镀层规格ASTM B546-04 电熔焊镍铬钴钼合金(UNS N06617)、镍铁铬硅合金(UNS N08330 and UNS N08332)、镍铬铁铝合金(UNS N06603)、镍铬铁合金(UNS N06025)和镍铬铁硅合金(UNS N06045)管规格ASTM B547-B547M-02 铝和铝合金电弧焊圆铸管规格ASTM B548-03 压力容器用铝合金板的超声波检验方法ASTM B549-04 铝覆钢芯的同心绞合铝导线(ACSR/AW)规格ASTM B550-B550M-07 锆和锆合金棒材及线材规格ASTM B551-B551M-07 锆和锆合金带材、薄板及中厚板规格ASTM B552-98(2004) 水淡化厂用无缝与焊接铜镍管规格ASTM B555-86(2007) 用滴定试验法测量电解沉积金属镀层厚度的导则ASTM B556-90(2007) 用抽查试验法测量薄镀铬层厚度的导则ASTM B557-06锻制和铸造的铝及镁合金制品的拉力试验方法ASTM B557M-07 锻制和铸造的铝及镁合金制品的拉力试验方法(米制)ASTM B558-79(2003) 电镀用镍合金制备规程ASTM B559-93(2007) 电气用镀镍包铜钢丝ASTM B560-00(2005) 现代铅锡锑合金规格ASTM B561-94(2005) 精炼铂规格ASTM B562-95(2005) 精炼金规格ASTM B563-01(2006) 电接触用钯银铜合金规格ASTM B564-06a 镍合金锻件规格ASTM B565-04 铝和铝合金铆钉及冷锻丝与线材的剪切试验方法ASTM B566-04a 包铜铝丝规格ASTM B567-98(2003) 用β射线反向散射法测量镀层厚度的试验方法ASTM B568-98(2004) 用X射线光谱测定法测量镀层厚度的试验方法ASTM B569-04 热交换器管用窄型和轻量型黄铜带材规格ASTM B570-06 铜铍合金(UNS No. C17000 and C17200) 锻件和挤压件ASTM B571-97(2003) 金属镀层定性粘附性的试验方法ASTM B572-06 UNS NO6002、UNS NO6230、UNS N12160和UNS R30556线材规格ASTM B573-06 镍钼铬铁合金(UNS N10003、N10242)线材规格ASTM B574-06e1 低碳镍铬钼、低碳镍钼铬钽、低碳镍铬钼铜和低碳镍铬钼钨合金线材规格ASTM B575-06 低碳镍铬钼、低碳镍铬钼铜、低碳镍铬钼钽和低碳镍铬钼钨合金的中厚板、薄板及带材规格ASTM B576-94(2005) 电接触材料的电弧侵蚀试验指南ASTM B577-93(2004)e1 检测铜中氧化亚铜(氢脆敏感性)的试验方法ASTM B578-87(2004) 电镀层显微硬度的测量方法ASTM B579-73(2004) 锡铅合金电解沉积镀层(焊料板)规格ASTM B580-79(2004) 铝阳极氧化镀层规格ASTM B581-02 镍铬铁钼铜合金线材规格ASTM B582-02 镍铬铁钼铜合金板、薄板和带材规格ASTM B584-06a 通用铜合金砂模铸件规格ASTM B587-06 焊接的黄铜管规格ASTM B588-88(2006) 用双光束干扰显微术测量透明涂层或不透明涂层厚度的试验方法ASTM B589-94(2005) 精制钯规格ASTM B591-04 铜锌锡和铜锌锡铁镍合金板、薄板、带材及轧制的棒材标准规范ASTM B592-01(2006) 铜锌铝钴合金、铜锌锡铁合金中厚板、薄板、带材及轧制棒材规格ASTM B593-96(2003)e1 铜合金弹性材料的弯曲疲劳试验方法ASTM B594-06 航空设备用铝合金锻制品的超声波检验方法ASTM B595-95(2006) 烧结铝构件规格ASTM B596-89(2006) 金铜合金电接触材料的规格ASTM B598-98(2004) 抗拉试验中铜合金偏置屈服强度的测定ASTM B599-92(2003)e1 稳定的镍铁铬钼钶合金(UNS NO8700)中厚板、薄板及带材规格ASTM B600-91(2002)e1 钛和钛合金表面去垢与清洗指南ASTM B601-07 锻制及铸造的铜和铜合金回火名称的分类ASTM B602-88(2005) 金属和无机涂层的属性抽样试验方法ASTM B603-07 电热元件用拉制或轧制铁铬铝合金的规格ASTM B604-91(2003)E1 塑料表面装饰铜/镍/铬电镀层规格ASTM B605-95a(2004) 锡镍合金电解沉积镀层规格ASTM B606-02 钢芯铝和铝合金导线用高强度镀锌钢芯线规格ASTM B6-07 锌规格ASTM B607-91(2003) 工程用自动催化镍硼涂层规格ASTM B608-02 铜合金焊接管规格ASTM B609-B609M-99(2004) 电气用退火及中温回火的1350型铝圆线ASTM B610-00E1 测量金属粉未试样尺寸变化的试验方法ASTM B61-02 蒸气或阀门青铜铸件的标准规范ASTM B611-85(2005) 硬质合金耐磨性试验方法ASTM B613-76(2006) 滑动电触点用复合材料微型电刷规格的编写指南ASTM B614-05 锆与锆合金表面除锈及清洁规程ASTM B615-79(2006) 滑动电触点电接触噪音的测定规程ASTM B616-96(2006) 精制铑规格ASTM B617-98(2004) 电接触用铸银合金的规程ASTM B618-06 铝合金溶模铸件规格ASTM B619-06 焊接的镍和镍钴合金管规格ASTM B620-03 镍铁铬钼合金(UNS NO8320)板、薄板和带材规格ASTM B62-02 混合青铜或少量金属铸件标准规范ASTM B621-02(2006) 镍铁铬钼合金(UNS NO8320)线材规格ASTM B622-06 镍与镍钴合金无缝管规格ASTM B624-99(2005)e1 电子设备用高强度高导电性铜合金丝规格ASTM B625-05 UNS N08925、UNS N08031、UNS N08932、UNS N08926和UNS R20033中厚板、薄板和带材规格ASTM B626-06 焊接镍和镍钴合金管规格ASTM B628-98(2004) 电触头银铜低共溶合金规格ASTM B629-77(2003) 电镀用钼和钼合金制备规程ASTM B63-07 金属导电电阻及电接触材料电阻率的测试方法ASTM B630-88(2006) 电镀用铬的制备规格ASTM B631-93(2004) 银钨电接触材料的规格ASTM B632-B632M-02 轧制的铝合金防滑条规格ASTM B633-07 钢铁表面电镀层规格ASTM B634-88(2004)E1 工程用铑电解沉积镀层规格ASTM B635-00(2004)E1 镉锡机械沉积镀层规格ASTM B636-84(2006)E1 用螺旋收缩仪测量电镀金属镀层内应力的方法ASTM B637-06 高温用沉淀硬化镍合金棒材、锻件和锻坯规格ASTM B639-02 高温用沉积硬化含钴合金(UNS R30155和UNS R30816)线材、棒、锻件及锻坯料规格ASTM B640-00(2006) 空调及制冷设备用焊接铜及铜合金管ASTM B643-00(2005) 铜铍合金无缝管规格ASTM B644-05 铜合金添加剂规格ASTM B645-07 铝合金平面应变断裂韧性测试规程ASTM B646-06a 铝合金的断裂韧性测试规程ASTM B647-84(2006) 用维氏硬度仪测量铝合金压痕硬度的试验方法ASTM B648-78(2006) 用巴氏压痕仪测定铝合金压痕硬度的试验方法ASTM B649-06 镍铁铬钼铜氮低碳合金(UNS N08925、UNS N08031、UNS N08354和UNS N08926)以及铬镍铁氮低碳合金(UNS R20033)棒材和线材规格ASTM B650-95(2002) 铁质基物上电沉积工程镀铬层规格ASTM B651-83(2006) 用双束干涉显微镜测量镍铬或铜镍铬电镀表面腐蚀部位的试验方法ASTM B652-B652M-04 铌铪合金锭规格ASTM B653-B653M-06 无缝与焊接的锆与锆合金焊接配件规格ASTM B654-B654M-04 铌铪合金箔、薄板、带材和中厚板规格ASTM B655-B655M-04 铌铪合金棒材、线材和丝规格ASTM B657-05 硬质钨合金微观结构金相测定的试验方法ASTM B658-B658M-06 锆与锆合金无缝管及焊接管规格ASTM B659-90(2003) 金属及无机涂层厚度测量指南ASTM B66-B66M-06 蒸汽机车易损件用青铜铸件规格ASTM B660-02 铝和镁产品封装/包装规程ASTM B661-06 镁合金热处理规程ASTM B662-94(2006) 银钼电接触材料的规格ASTM B663-94(2006) 银钨硬质合金电接触材料的规格ASTM B664-90(2006) 含80%银,20%石墨的滑动接触材料的规格ASTM B665-03 硬质钨合金金相样本的制备导则ASTM B666-B666M-01 铝和镁制品的识别标志规程ASTM B667-97(2003)e1 测量电接触电阻用探测器的结构及使用的规格ASTM B668-05 UNS NO8028无缝管规格ASTM B670-02 高温用沉淀硬化的镍合金(UNS No7718)板、薄板及带材规格ASTM B67-05 车辆及煤水车用有衬里的轴颈轴承标准规格ASTM B671-81(2005) 精炼铱规格ASTM B672-02 稳定的镍铁铬钼铌合金(UNS NO8700)棒和丝规格ASTM B673-05e1 UNS NO8925、UNS N08354和UNS N08926焊接管规格ASTM B674-05 UNS NO8925、UNS N08354和UNS N08926焊接管规格ASTM B675-02 UNS NO8367焊接管标准规范ASTM B676-03 NO8367焊接管规格ASTM B677-05 UNS N08925、UNS N08354和UNS N08926无缝管规格ASTM B678-86(2006) 金属涂覆产品可焊性的试验方法ASTM B679-98(2004)E1 工程用钯电镀层规格ASTM B68-02 光亮退火的无缝铜管规格ASTM B680-80(2004) 用酸溶法测定铝的阳极镀层封闭质量的试验方法ASTM B682-01 电导体的标准米制尺寸规格ASTM B683-01(2006 纯钯电接触材料的规格ASTM B684-97(2002) 铂铱电接触材料规格ASTM B685-01(2006) 钯铜电接触材料的规格ASTM B686-03 高强度铝合金铸件规格ASTM B687-99(2005)e1 镀黄铜、镀铜及镀铬管接头规格ASTM B688-96(2004) 铬镍钼铁(UNS NO8366和UNS NO8367)中厚板、薄板及带材规格ASTM B689-97(2003) 电镀工程镀镍层规格ASTM B68M-99(2005) 光亮退火的无缝铜管(米制)ASTM B690-02 铁镍铬钼合金无缝管标准规范ASTM B69-01a(2005) 轧制锌材规格ASTM B691-02 铁镍铬钼合金(UNS N08366 和UNS N08367)线材、棒材及丝规格ASTM B692-90(2006) 含75%银,25%石墨的滑动电接触材料的规格ASTM B693-91(2006) 银镍电接触材料的规格ASTM B694-03 电缆屏蔽层用铜、铜合金、包铜青铜(CCB)、包铜不锈钢(CCS)和包铜合金钢(CAS)薄板及带材规格ASTM B695-04 钢铁表面锌机械沉积镀层规格ASTM B696-00(2004)E1 镉机械沉积锌镀层的规格ASTM B697-88(2005) 电沉积金属镀层和无机镀层检验用抽样计划的选择指南ASTM B698-02 铜和铜合金卫生设备无缝管的分类ASTM B699-86(2003) 钢铁表面镉真空沉积镀层规格ASTM B700-97(2002) 工程用银电镀层规格ASTM B701-B701M-06 同芯绞捻自阻钢芯加强铝导线(ACSR/SD) B702-93(2004) 铜钨电触点材料ASTM B702-93(2004) 铜钨电接触材料的规格ASTM B703-05 用阿诺德仪器测量粉末表面密度的试验方法ASTM B704-03 合金(UNS NO6625、UNS N06219和NO8825)焊接管规格ASTM B705-05 镍合金(UNS N06625、N06219 和N08825)焊接管规格ASTM B706-00(2006) 无缝铜合金管材规范(UNS No. C69100)ASTM B708-05 钽和钽合金中厚板、薄板及带材规格ASTM B70-90(2007) 电加热用金属材料的电阻随温度变化的测试方法ASTM B709-04 铁镍铬钼合金(UNS NO8028)中厚板、薄板和带材规格ASTM B710-04 镍铁铬硅合金焊接管规格ASTM B711-05 钢芯同芯绞捻铝合金导线规格(AACSR)(6201)ASTM B712-93(2006) 氧化银镉接触材料用钠和钾含量的测定指南ASTM B715-96(2001) 导电用烧结铜构件规格ASTM B717-96(2006) 精炼钌规格ASTM B718-00(2006) 镍铬钼钴钨铁硅合金(UNS NO6333)板、薄板和带材规格ASTM B719-00(2005 镍铬钼钴钨铁硅合金(UNS NO6333)棒材规格ASTM B722-06 镍铬钼钴钨铁合金(UNS N06333)无缝管规格ASTM B723-00(2005) 镍铬钼钴钨铁硅合金(UNS NO6333)焊接管规格ASTM B724-00(2006 用便携式内韦季非卡尺型仪器测量铝合金压痕硬度的试验方法ASTM B725-05 焊接镍(UNS N02200/UNS N02201)和镍铜合金(UNS N04400)管规格ASTM B726-02(2006) 镍铬钼钴钨铁硅合金(UNS NO6333)焊接管规格ASTM B727-04 电镀用塑料的制备规程ASTM B729-05 无缝UNS N08020、UNS N08026和UNS N08024镍合金管规格ASTMB731-96(2006) 60%钯40%银电触点材料规格ASTM B733-04 金属自动催化(化学)镍磷镀层规格ASTM B734-97(2003)E1 工程用电沉积铜规格ASTM B735-06 采用硝酸蒸气的金属底材上金镀层孔隙率试验方法ASTM B736-00(2006) 铝、铝合金和包铝钢电缆屏蔽材料规格ASTM B737-05 热轧和/或冷加工铪线材和丝规格ASTM B738-03 电导线用成束细线和成束绞捻绳索铜导线。
钢铁标准对照表2009-09-29 14:02:36 阅读105 评论0 字号:大中小 订阅 详细钢铁标准对照表棒钢、型钢、钢板标准号标准名称标准号 标准名称JIS G 3101 一般结构用轧制钢材ASTM A 36-94结构用钢材 ASTM A 283-93a 低中强度碳素钢 JIS G 3106 焊接结构用轧制钢材JIS G 3136 建筑结构用轧制钢材 ASTM A 529-94结构用钢(屈服点 30kg. 厚度 ) ASTM A 570-95结构用热轧碳素钢钢板及钢带 ASTM A 572-94C结构用高强度低合金铌-钒钢 ASTM A 573-93a结构用韧性改善碳素钢钢板 ASTM A 633-95结构用正火低合金高强度钢 ASTM A 678-94a结构用淬火、回火碳素钢钢板 ASTM A 709-95a桥梁结构用钢材 BS EN 10025-93非合金结构及交货技术条件 DIN EN 10025-93NF EN 10025-93BS EN 10025-90(旧标准) 非合金结构钢及交货技术条件DIN EN 10025-91(旧标准)NF EN 10025-90(旧标准)BS 4360-90(旧标准) 焊接结构用钢材BS 4360-86(旧标准) 焊接结构用钢材DIN 17100-80(旧标准)一般结构用钢材DIN 17102-83(旧标准)焊接细晶粒钢NF A 35-501-87(旧标准)结构用钢材ISO 630-95结构用钢材 ISO 4950/2-95高强度钢钢板(正火或CR 处理) ISO 4950/3-95高强度钢板(淬火回火) ISO 4951-79高强度钢棒及型钢 ISO 4995-93结构钢热轧薄板 ISO 4996-91结构钢高强度热轧薄板 ISO 6316-93结构钢热轧钢带 JIS G 3128 焊接结构用高强度钢钢板ASTM A 514-94a焊接性调质高强度合金钢 ASTM A 517-93压力容器用低合金淬火、回火高强度钢ASTM A 709-95a桥梁结构用钢材 ISO 9328/4-91 压力用途钢板焊接性高强度细晶粒钢(N 或QT )JIS G 3114 焊接结构用耐候性热轧钢材ASTM A 588-94低合金高强度结构钢钢材 ASTM A 709-95a桥梁结构钢钢材 BS EN 10155-93耐候性结构钢DIN EN 10155-93NF EN 10155-93BS 4360-90(旧标准) 焊接结构用钢材VDEhSEW087-81耐候性结构钢NF A 35-502-84(旧标准)耐候性结构钢ISO 4952-81耐候性结构钢 ISO 5952-83耐候性结构用热轧薄板 JIS G 3125 高耐候性轧制钢材ASTM A242-93a低合金高强度结构钢钢材 BS EN 10155-93耐候性结构钢 DIN EN 10155-93NF EN 10155-93BS 4360-90(旧标准) 焊接结构钢钢材NF-A 35-502-84(旧标准)耐候性结构钢ISO 4952-81耐候性结构钢 ISO 5952-83耐候性结构用热轧薄板 JISG3103锅炉及压力容器用碳素钢及钼钢钢板ASTM A 204-93压力容器用钼钢钢板 ASTM A 285-90 压力容器用低中强度碳素钢钢板 JIS 压力容器用薄ASTM A 414-92 压力容器用碳素钢薄钢板G3115 钢板JISG3115-1压力容器用厚钢板ASTMA515-92 中、高温压力容器用碳素钢钢板 JIS G3116 高压气容器用钢板及钢带ASTM A 516-90中、低温压力容器用碳素钢钢板 JISG3118中、常温压力容器用碳素钢钢板ASTM A 612-90中、低温压力容器用高强度碳素钢钢板 ASTM A 662-93中、低温压力容器用碳-锰钢钢板 BS EN 10028-2-93压力容器用钢板 DIN EN 10028-2-93 非合金钢及合金钢 NF EN 10028-2-92 BS EN 10028-3-93 压力容器用钢板 DIN EN 10028-3-93 焊接性细晶粒钢(N)NF EN 10028-3-92JIS G 3118 常温压力容器用钢板 BS 1501/1-80(旧标准)有火及无火压力容用钢板DIN 17155-83(旧标准)锅炉用钢板NF A 36-205-82(旧标准) 锅炉、压力容器用非合金钢钢板ISO 9328/2-91压力容器用钢板非合金钢及低合金钢ISO 9328/4-91焊接性高强度细晶粒钢(N 或 QT) ISO 4978-83 焊接气体容器用钢板JIS G3124 中、常温压力容器用高强度钢钢板 BS EN 10028-2-93 压力容器用钢板DIN EN 10028-2-93 非合金钢及合金钢BS 1501/2-88有火及无火压力容器用钢板(合金钢钢板) DIN 17102-83(旧标准)焊接用细晶粒钢ISO 9328/4-91压力用途钢板焊接性高屈服点细晶粒钢(N 或 EQ)JIS G3119 锅炉、压力容器用锰-钼、锰-钼-镍钢钢板ASTM A 302-93压力容器用锰-钼、锰-钼镍钢钢板 ASTM A 533-93压力容器用锰-钼、锰-钼-镍淬火、回火钢钢板 JIS G3120压力容器用调质型锰-钼、锰-钼-镍钢钢板ASTM A 734-87a压力容器用淬火、回火高强度低合金钢钢板 JIS G4109 锅炉及压力容器用铬-钼钢钢板 ASTM A 387-92压力容器用铬-钼合金钢钢板 BS EN 10028-2-93 压力容器用钢板DIN EN 10028-2-93 非合金钢及合金钢NF EN 10028-2-92BS 1501/2-88 有火及无火压力容器用钢板(合金钢) DIN 17155-83(旧标准)锅炉用钢板 NF A 36-206-83(旧标准) 锅炉、压力容器用钢板 钼、锰-钼、铬-钼合金钢ISO 9328/2-91压力用途用钢板非合金及低合金钢ISO 9328/3-91低温用镍合金钢 JIS G4110高温压力容器用高强度铬、钼钢钢板 ASTM A 542-95 压力容器用淬火、回火、铬-钼、铬-钼-钒合金钢钢板 ASTM A 832-95压力容器用铬-钼-钒钢钢板 JIS G 3126 低温压力容器用碳素钢钢板 ASTM A 516-90常温及低温压力容器用碳素钢钢板 ASTM A 537-95压力容器用热处理碳-锰-硅钢 ASTM A 662-93中、低温压力容器用碳-锰钢 ASTM A 841-95压力容器用TMCP 钢 BS EN 10028-3-93 压力容器用钢板DIN EN 10028-3-93 焊接性细晶粒钢(N)NF EN 10028-3-93BS EN 10113-2-93焊接细晶粒结构用钢交货条件(正火及正火钢材)DIN EN 10113-2-93NF EN 10113-2-93BS 1051/1-80(旧标准)有火及无火压力容器用钢板DIN 17102-83(旧标准)焊接细晶粒钢NF A 36-208-82 低温压力容器用非合金及镍合金钢钢板ISO 9328/4-91压力用途用钢板焊接性高强度细晶粒钢(N 或 QT)JIS G 3127 低温压力容器用镍钢钢板ASTM A 203-93镍合金钢钢板 ASTM A 353-93二次正火回火9%镍合金钢钢板 ASTM A 553-95 淬火回火8镍、9镍合金钢钢板ASTM A 844-93直接淬火9%镍合金钢钢板BS 1501/2-88(旧标准)有火无火压力容器用钢板(合金钢)DIN 17280-85低温用钢 NF A 36-208-82低温压力容器用非合金及镍合金钢钢板 ISO 9328/3-91压力用途用钢板、低温用镍合金钢 JIS G3104 铆钉用圆钢ASTM A 31-95锅炉用铆钉钢钢材 ASTM A 502-93结构用铆钉 DIN 17111-80螺钉、螺帽及铆钉用低碳非合金钢 JIS G 3112 钢筋混凝土用钢棒 ASTM A 615-94混凝土加强用小钢环钢钢棒 ASTM A 706-93a混凝土加强用低合金导形钢棒 BS 4449-88混凝土加强用热轧钢棒 DIN 488/1-84钢筋混凝土用钢棒 NF A 35-015-84混凝土加强用圆钢 NF A 35-016-86混凝土加强用高附着性钢棒 JIS G 3199 钢板及扁钢的厚度方向特性 BS EN 10164-93与表面垂直方向的性能改善钢材DIN EN 10164-93NF EN 10164-93BS 6780-86(旧标准) 钢板及扁钢厚度方向深冲值VbEh*SEL096-88厚度方向应力改善钢板、扁钢 注*表示VdEh 为法国钢铁协会的标准NFA 36-202-81(旧标准) 与表面垂直方向的特性钢板ISO 7778-83钢板及扁钢的厚度方向特性 JIS G 3353 一般结构用焊接轻量H 型钢ASTM A 769-94电阻焊接型钢 JIS E1101普通钢轨 ASTM A 1-92碳素钢T 型轨 BS 11-85轨道用钢轨 ISO 5003-80非合金钢轨道用及支线用平底钢轨 JIS G 3131 热轧软钢钢板及钢带ASTM A 569一般用热轧碳素钢钢板及钢带 /A 569M-91aASTM A 621深冲用热轧碳素钢钢板及钢带 /A621M-92ASTM A 622深冲用特殊镇静钢热 /A622M-92轧碳素钢钢板及钢带 BS 1449 Part1碳素钢、碳锰钢薄钢板 SEC :91加工用热轧宽幅薄钢板 :91规定最低强度的热轧宽幅薄钢板 :91加工用热轧窄幅薄钢板 :91规定最低强度的热轧窄幅薄钢板 :91热处理用一般用途热轧窄幅薄钢板 DIN 1614/1-86非合金钢热轧钢板、钢带 NF A 36-102-93合金钢、非合金钢热轧钢板 NF A 36-301-92弯曲深冲加工用热连轧钢板(钢板、板卷)ISO 3573-86一般用、深冲用热轧碳素钢钢板 ISO 6317-82一般用、深冲用热轧碳素钢钢带 JIS G 冷轧钢板及钢ASTM A 109-93 冷轧碳素钢钢带3141 带 ASTM A 109M-91冷轧碳素钢钢带(公制) SATM A 366一般用冷轧碳素钢钢板 /A 366M-91ASTM A 619深冲用碳素钢钢板 /A 619M-92ASTM A 620深冲用特殊镇静钢冷轧碳素钢钢板 /A 620M-92BS 1449:Part1碳素钢、碳锰钢薄钢板 SEC :91加工用冷轧宽幅薄钢板 :91规定最低强度的冷轧宽幅薄钢板 :91加工用冷轧窄幅薄钢板 :91规定最低强度的窄幅薄钢板 :91热处理用一般用途窄幅薄钢板 BS EN 10130:91加工用冷轧低碳钢薄钢板 DIN 1624-87冷轧软钢带(宽度<650mm ) DIN EN 10130:91加工用冷轧低碳钢薄钢板 DIN 1623/2-86结构用冷轧钢板及钢带 NF EN 10130:91加工用冷轧低碳钢薄钢板 ISO 3574-86一般用、深冲用冷轧碳素钢钢板 ISO 5954-84保证硬度的冷轧碳素钢钢板 JIS G 3133 搪瓷用脱碳钢板及钢带ASTM A 424-92搪瓷用钢板 ISO 5001-93搪瓷用冷轧碳素钢钢板 DIN 1623/3-87搪瓷用冷轧钢板及钢带 JIS G 配管用碳素钢ASTM A 53-95 配管用焊接及无缝钢管(黑管、白管)3452 钢管 API 5L-95管线管 BS 1387-85(90)适用于BS21带螺纹的钢管 DIN 1615-84无特别规定的非合金钢焊接钢管 DIN 2440-78中等壁厚带螺纹钢管 DIN 2441-78厚壁带螺纹钢管 ISO 65-81带螺纹钢管 ISO 559-91水管、排水管、气体输送用钢管 JIS G 3454 压力配管用碳素钢钢管 ASTM A 135-93配管用电阻焊钢管 ASTM A 53-95配管用焊管及无逢钢管 API 5L-95管线管 BS 3601-87(93)压力配管用碳素钢钢管(普通级) BS 3602(1)-87(93)压力配管用碳素钢钢管(高级) DIN 1626-84 有特别规定的非合金钢焊接钢管 DIN 1629-84有特别规定的非合金钢无缝钢管 DIN 2442-63公称压力为1-100kg/cm 用带螺纹的无缝钢管 ISO 2604(II)-75压力用无缝钢管 ISO 2604(III)-75压力用电阻焊钢管 ISO 9329(I)-89压力用无缝钢管/非合金钢 ISO 9330(I)-90压力用焊接钢管/非合金钢 JIS G 3455 高夺配管用碳素钢钢管 DIN 1628-84优质非合金钢焊接钢管 DIN 1630-84 优质非合金无缝钢管 ISO 2604(II)-75压力用无缝钢管 ISO 9329(I)-89压力用无缝钢管/非合金钢 JIS G 高温配管用碳ASTM A 106-94a 高温配管用碳素钢无缝钢管3456 素钢钢管 DIN 17175-79 无缝耐热钢钢管 DIN 17177-79电阻焊耐热钢钢管BS 3602(1)-87(93) 压力配管用碳素钢钢管(对高温强度有规定) ISO 2604(II)-75 压力用无缝钢管 ISO 2604(III)-75 压力用电阻焊钢管JIS G 3457 配管用电弧焊碳素钢钢管ASTM A 134-93a配管用电焊、电弧焊钢管(>= 16") ASTM A 139-93a 配管用电焊、电弧焊钢管(>= 4") DIN 1626-84 有特别规定的非合金钢焊接钢管 ISO 559-91 水管、排水管、气体输送用钢管JIS G 3458 配合用合金钢钢管ASTM A 335高温配管用无缝铁素体钢钢管/A 335M-94 BS 3604 压力配管用铁素体合金钢钢管 (1)-90(1)无缝钢管(S) (1)-91(2)电弧焊管(W)DIN 17175-79 无缝耐热钢钢管 DIN 17177-79 电阻焊耐热钢钢管 ISO 2604(II)-75 压力用无缝钢管 ISO 2604(III)-75 压力用电阻焊钢管 JIS G 3459 配管用不锈钢钢管ASTM A 312配管用无缝及焊接奥氏体不锈钢钢管/A 312M-94bASTM A 358高温配管用焊接奥氏体铬-镍钢钢管/A 358M-94a ASTM A 376Central-station 高温配管用奥氏体钢钢管/A 376M-93配管用无缝及焊接铁素体/奥氏体不锈钢钢管/A 790M-94 BS 3605 压力配管用奥氏体不锈钢钢管 (1)-91 (1)无缝钢管(S) (2)-92 (2)电弧焊钢管(W) DIN 17455-85 一般不锈钢焊接钢管 DIN 17456-85 一般不锈钢无缝钢管 DIN 17457-85 有特别规定的不锈钢焊接钢管 DIN 17458-85 有特别规定的不锈钢无缝钢管JIS G 3460 低温配管用钢管ASTM A 333低温配管用无缝及焊接钢管/A 333M-94 BS 3603-91低温压力配管用钢管 DIN 17174-85低温用焊接钢管 DIN 17173-85 低温用无缝钢管 ISO 2604(II)-75 压力用无缝钢管 ISO 2604(III)-75 压力用电阻焊钢管 JIS G3468 配管用焊接大口径不锈钢钢管ASTM A 358高温焊接奥氏体钢钢管/A 358M-94a ASTM A 409耐蚀热用焊接大口径奥氏体钢钢管 /A 409M-92 BS 3605(2)-92压力配管用奥氏体不锈钢钢管 DIN 17455-85 一般用途不锈钢焊接钢管 DIN 17457-85 有特别规定的不锈钢焊接钢管 ISO 2604(V)-78压力用焊接奥氏体钢钢管JIS G3461锅炉、热交换器用碳素钢钢管 锅炉用电阻焊碳素钢钢管/A 178M-90a ASTM A 179热交换器及冷凝器用冷轧无缝低碳钢钢管/A 179M-90a ASTM A 192高压锅炉用碳素钢无缝钢管/A 192M-91 ASTM A 210锅炉及过热器用无缝中碳钢钢管/A 210M-91ASTM A 214热交换器及冷凝器用电阻焊碳素钢钢管/A 214M-90aASTM A 226高压锅炉及过热器用电阻焊碳素钢钢管/A 226M-90a BS 3059 锅炉及过热器用钢管(1)-93, (2)-90BS 3606-92 热交换器用钢管 DIN 17175-79 高温用无缝钢管 DIN 17177-79 高温用电阻焊钢管 ISO 2604(II)-75 压力用无缝钢管 ISO 2604(III)-75 压力用电阻焊钢管 JIS G 3462 锅炉、热交换器用合金钢管ASTM A 199热交换器及冷凝器用冷轧无缝中合金钢钢管/A 199M-92ASTM A 209锅炉及过热器用无缝碳-钼合金钢钢管 /A 209M-91 ASTM A 213锅炉、过热器及热交换器用铁素体及奥氏体合/A 213M-94b 金钢无钢管ASTM A 250锅炉及过热器用电阻焊碳-钼合金钢钢管/A 250M-91 ASTM A 423无缝及电阻焊低合金钢钢管/A 423M-91 BS 3059(2)-90 锅炉及过热器用钢管 BS 3606-92 热交换器用钢管 DIN 17175-79 高温用无缝钢管 DIN 17177-79 高温用电阻焊钢管 ISO 640(II)-75 压力用无缝钢管 ISO 2604(III)-75 压力用电阻焊钢管JIS G3463锅炉、热交换器用不锈钢钢管 ASTM A 213 锅炉、过热器及热交换器用铁素体及奥氏体合金钢无缝钢管/A 213M-94b ASTM A 213 锅炉、过热器及热交换器用铁素体称奥氏体合金钢无缝钢管/A 213M-94b ASTM A 249锅炉、过热器、热交换器及冷凝器用奥氏体不锈钢焊接钢管/A 249M-94aASTM A 268一般用途铁素体、马氏体不锈钢无缝及焊接钢管/A 268M-94ASTM A 269-94a 一般用途奥氏体不锈钢钢无缝及焊接钢管ASTM A 789一般用途铁素体/奥氏体钢无缝及焊接钢管/A 789M-94 BS 3059(2)-90 锅炉及过热器用钢管 BS 3606-92热交换器用钢管DIN 17455-85 一般用途不锈钢焊接钢管 DIN 17456-85 一般用途不锈钢无缝钢管 DIN 17457-85 有特殊规定的不锈钢焊接钢管 DIN 17458-85 有特殊规定的不锈钢无缝钢管 ISO 2604(II)-75 压力用无缝钢管 ISO 2604(III)-75 压力用电阻焊钢管 ISO 2604(V)-78 压力用奥氏体钢焊接钢管JIS G 3464 低温热交换器用钢管ASTM A 334低温用碳素钢、合金钢无缝及焊接钢管/A 334M-91 BS 3603-91低温压力用碳素钢及合金钢钢管DIN 17174-85低温用焊接钢管DIN 17173-85 低温用无缝钢管 DIN 2604(II)-75 压力用无缝钢管 ISO 2604(III)-75 压力用电阻焊钢管JIS G3467加热炉用钢管 ASTM A 161-94石油精炼用低碳及碳-钼钢无缝钢管 ASTM A 200-94石油精炼用合金钢无缝钢管 ASTM A 271-94 石油精炼用奥氏体铬-镍钢无缝钢管 JIS G 3444 一般结构用碳素钢钢管ASTM A 500-93 结构用冷轧焊接及无缝碳素钢圆管及方管 ASTM A 501-93结构用热轧焊接及无缝碳素钢钢管 DIN 17120-84 一般结构用焊接钢管 DIN 17121-94 一般结构用无缝钢管 DIN 17123-86 结构用焊接细晶粒钢钢管 DIN 17124-86结构用无缝细晶粒钢钢管 JIS G 机械结构用碳ASTM A 512-94机械结构用冷锻碳素钢钢管3445 素钢钢管JIS G3472汽车结构用电阻焊碳素钢钢管 ASTM A 513-94机械结构用电阻焊碳素钢及合金钢钢管JIS G 3473 汽缸筒用碳素钢钢管ASTM A 519-94 机械结构用碳素钢及合金钢无缝钢管 BS 1717-83(1989)自行车及摩托车用钢管JIS G 3441 机械结构用合金钢钢管 ASTM A 519-94 机械结构用碳素钢及合金钢无缝钢管 BS 1717-83(1989)自行车及摩托车用钢管JIS G 3446 机械结构用不锈钢钢管 ASTM A 511-90机械结构用不锈钢无缝钢管JIS G 3466 不锈钢方形钢管ASTM A 500-93机械结构用碳素钢冷轧焊接及无缝管圆管及方管JIS G 3447 不锈钢民用钢管ASTM A 270-90卫生工业无缝及焊接奥氏体不锈钢钢管JIS G 4903 配管用镍铬合金钢无缝钢管ASTM B 167-94a镍-铬-铁合金无缝钢管 ASTM B 407-95镍-铁-铬合金无缝钢管 ASTM B 423-95 镍-铁-铬-钼-铜合金无缝钢管JIS G4904 热交换器用镍铬合金钢无缝钢管ASTM B 163-95a冷凝器、热交换器用镍及镍合金钢无缝钢管 ASTM B 167-94a 镍-铬-铁合金无缝钢管 ASTM B 407-95镍-铁-铬合金无缝钢管 ASTM B 423-95镍-铁-铬-钼-铜合金无缝钢管JIS A5525钢管桩ASTM A 252-93 焊接及无缝钢管桩JIS C 钢制电线管BS 31-40(1988) 电气配线用钢制配线管及连接件8305ANSI C 镀锌钢制电线管ANSI C 镀锌金属电线管UL *6-93金属制电线管1. 机构结构用碳素钢、合金钢标准号及名称牌号ISO683/1,10,11AISISAEBS 970Part1,3 BSEN10083-1,2DIN 17210 DIN EN10083-1,2NF A35-551 NFEN10083-1,2TOCT 4543JIS G 4051S10C C101010040A1Ck10XC10-机械结构用碳素钢045A1C10045M1S12C1012040A12-XC12-S15CC15E41015055M15Ck15--C15M2C15S17C-1017--XC18-S20C-1020070M21C221C22-1C222C222C222C223C223C223C22S22C-1023----S25C C2510251C251C251C25-C25E42C252C252C25C25M23C253C253C25S28C-1029---25GS30C C301030080A31C301C3030G C30E4080M32C302C30C30M21C303C303C302C303C30S33C-----30GS35C C3510351C351C351C3535G C35E42C352C352C35C35M23C353C353C35S38C1038--35GS40C C401039080M41C401C4040G C40E410401C402C402C40C40M22C403C403C403C40S43C1042080A42-40G1043S45C C4510451C451C451C4545G C45E410462C452C452C45C45M23C453C453C45S48C080A47-45GS50C C501049080M51C501C5050G C50E41C502C502C50C50M22C503C503C503C50S53C 1050---50G 1053S55C C551055070M551C551C55-C55E41C552C552C55C55M22C553C553C553C55S58C C6010591C601C601C6060G C60E410602C602C602C60C60M23C603C603C60S09CK--045A1Ck10XC10-045M1S15CK---Ck15XC12-S20CK----XC18-JIS G 4102SNC236-----40XH 镍铬钢SNC415------SNC631-----30XH3ASNC81515NiCr13-655M13--SNC836------JIS G 4103SNCM22020NiCrMo28615805A221NiCrMo220N C D2-镍铬钼钢20NiCrMoS28617805M221NiCrMoS2 8620805A228622805M22SNCM24041CrNiMo28637----41CrNiMoS28640SNCM415------SNCM420-4320---20XH2M(20XHM)SNCM431------SNCM439-4340----SNCM447------SNCM616------SNCM625------SNCM630------SNCM815------JIS G 4104SCr41516MnCr5---16MC515X铬钢16MnCrS515XASCr42020Cr45120-20CrS420MC 520X 20CrS4SCr43034Cr4513034Cr434Cr434Cr430X 34CrS4513234CrS434CrS434CrS4SCr43534Cr4513237Cr437Cr437Cr435X 34CrS437CrS437CrS437CrS437Cr437CrS4SCr44037Cr45140530M441Cr441Cr440X37CrS441Cr441CrS441CrS441Cr441CrS441CrS4SCr445-----45X JIS G 4105SCM415------铬钼钢SCM41818CrMo4----20XM 18CrMoS4SCM420--708M2--20XM SCM421------SCM430-4131---30XM 30XMASCM432SCM43534Cro4413734CrMo434CrMo434CrMo435XM 34CrMoS434CrMoS434CrMoS434CrMoS4SCM44042CrMo44140708M442CrMo442CrMo4-42CrMo4142709M442CrMoS442CrMoS4S4042CrMo442CrMoS4SCM445-4145----4147SCM822------JIS G 4106SMn42022Mn61522150M19---机械结构用锰钢及铬锰钢SMn433-1534150M36--30G235G2SMn43836Mn61541150M36--35G240G2SMn44342Mn61541---40T245T2SMnC420------SMnC443------JIS G 4202SACM64541CrA1-Mo74-----铝铬钼钢JIS G 4052SMn420H22Mn61522H----保证淬透性SMn433H------结构钢SMn438H36Mn61541H----SMn443H42Mn61541H----SMnC420H------SMnC443H------SCr415H 16MnCr5---16MC515X 16MnCrS5SCr420H 20Cr45120H-20Cr420MC520X 20CrS4SCr430H 34Cr45130H34Cr434Cr434Cr430X 34CrS45132H34CrS434CrS434CrS4SCr435H 34Cr45135H37Cr437Cr437Cr435X 34CrS437CrS437CrS437CrS437Cr437CrS4SCr440H 37Cr45140H41Cr441Cr441Cr440X 37CrS441CrS441CrS441CrS441Cr441CrS4SCM415H------SCM418H 18CrMo4-----18CrMoS4SCM420H--708H2---SCM435H 34CrMo44135H34CrMo434CrMo434CrMo4-34CrMoS44137H34CrMoS434CrMoS434CrMoS4SCM440H 42CrMo44140H42CrMo442CrMo442CrMo4 42CrMoS44142H42CrMoS442CrMoS442CrMoS4SCM445H-4145H----4147HSCM822H------SNC415H------SNC631H------SNC815H15NiCr13-655H13---SNCM220 H 20NiCrMo28617H805H17-20N C D2-20NiCrMoS28620H805H28622H805H22SNCM420H-4320H----JIS G 4107SNB5-501----高温用合金钢螺栓材SNB7-4140708M442CrMo4--4142709M44145630-860SNB16--670-86040CrMo - V4742CDV4-JIS G 4108SNB21-1~5--670-86040CrMo - V4742CDV4-特殊用途合金钢螺栓用棒钢SNB22-1~5-4142H-42CrMo4--SNB23-1~5-E4340H----SNB24-1-4340----~5注1) BS 15062) DIN 17240, DIN 1654 Part43) NF A35-5582. 不锈钢、耐热钢标准号及名称JIS ISO美国英国德国法国原苏联欧洲标准UNS AISI BS DIN NF GOCT ENJIS G4303~ 4305SUS201A-2S20100201Z12CMN17-07AzZ12CrMnNiN17-7-5不锈钢棒SUS202A-3S20200202284S1612X17T9AH4X12CrMnNiN18-9-5热轧不锈钢钢板及钢带SUS301l4S30100301301S21X12CrNi7 7Z11CN17-0807X16H6X10CrNi18-8冷轧不锈钢钢板及钢带SUS301LX12CrNi18-7X2CrNiN18-7 SUS X12CrNiN17301J17 JIS G4308~ 4309SUS30212,10(1)S3*******302S25Z12CN18-0912X18H9不锈钢线材SUS302BS3*******B不锈钢丝SUS30317S30300303303S21X10CrNiS189Z8CNF18-09X8CrNiS18-9 SUS303Se17a S3*******Se303S4112X18H10EJIS G4313~ 4315SUS30411S30400304304S31X5CrNi18 10Z7CN18-0908X18H10X4CrNi18-10弹簧用不锈钢带SUS304L10S30403304L304S11X2CrNi9 11Z3CN19-1103X18H11X2CrNi19-11弹簧用不锈钢丝SUS304N1S3*******NZ6CN19-09Az冷镦SUS S30452用不锈钢丝304N 2SUS304L N10NS30453 304LNX2CrNiN18 10Z3CN18-10AzX2CrNiN18-1JIS G 4317~4320 SUS 304J1热轧不锈钢等边角钢 SUS 304J2冷轧不锈钢钢棒 SUS304J3S30431S30431不锈钢锻件用钢坯 SUS305 13S30500 305305S19 X5CrNi18 12Z8CN18-12 06X18H11 X4CrNi18-12冷成形不锈钢等边SUS305J1角钢SUS309S 13(1)S3*******SZ10CN24-13SUS310S 16(1)S3*******S310S31Z8CN25-210X23H18X6CrNi25-20SUS31620S31600316316S31X5CrNiMo1712 2Z7CND17-12-02X4CrNiMo17-12-220aX5CrNiMo1713 3Z6CND18-12-03X4CrNiMo17-13-3SUS316L 19S31603316L316S11X2CrNiMo1713 2Z3CND17-12-02X2CrNiMo17-12-219aX2CrNiMo1714 3Z3CND17-13-0303X17H14M3X2CrNiMo17-13-3SUS316N S3*******NX2CrNiMo18-14-3SUS316L N 19N S3*******LNX2CrNiMoN17 12 2Z3CND17-11AzX2CrNiMoN17-11-219aNX2CrNiMoN17 13 3Z3CND17-12AzX2CrNiMoN17-13-3SUS316T i S31635X6CrNiMoTi17 12 2Z6CNDT17-1208X17H13M2TX6CrNiMoTi17-12-2SUS 316JSUS 316J 1L SUS317S31700317317S16SUS317L 24S31703317L317S12X2CrNiMo1816 4Z3CND19-15-04X2CrNiMo18-15-4SUS317L N S31753Z3CND19-14AzX2CrNiMoN18-12-4SUS317J 1X2CrNiMoN17 -13-5SUS317J2SUS317J3LSUS317J4LN08367 SUS317J A-4N08904N08904904S14Z2NCDU25-20N1CrNiMoCuN25-25-5SUS 32115、11(1)S3*******321S31X6CrNiTi1810Z6CNT18-1008X18H10TX6CrNiTi18-10SUS 34716、12(1)S3*******347S31X6CrNiNb18-10Z6CNNb18-1008X18H12BX6CrNiNb18-10SUS384D25(2)S3*******Z6CN18-16SUSXM7D26(2)S3*******Cu394S17Z2CNU18-10X3CrNiCu18-9-4XUSXM15 J1S38100Z15CNS20-12X1CrNiSi18-15-4SUS329J1S3******* SUS329J 3L S39240S31803Z3CNDU22-05Az08X21H6M2TX2CrNiMoN22-5-3SUS329J 4L S39275S3126Z3CNDU25-07AzX2CrNiMoCuN25-6-3SUS4052S40500405405S17X6CrA113Z8CA12X6CrA113SUS410LZ3C14429S4******* SUS4308,4(1)S4*******430S17X6Cr17Z8C1712X17X6Cr17SUS430F8a S4*******F X7CrMoS18Z8CF17X6CrMoS17 SUS430L X 8b S43035X6CrTI17,X6CrNb17Z4CT17X3CrTi17X2CrTi17SUS430J1LZ4CNb17X3CrNb17 SUS4349c S4*******434S17X6CrMo17 1Z8CD17-01X6CrMo17-1SUS436L S4*******X1CrMoTi16-1SUS 436J 1L SUS444F1S44400444Z3CDT18-02X2CrMoTi18-2SUS447J1S44700SUSXM27S44627Z1CD26-01SUS403S4******* SUS4103S41000410410S21X10Cr13Z13C13X12Cr13SUS410S 1S41008410S403S17X6Cr13Z8C1208X13X6Cr13SUS410F2SUS410J1S41025 SUS4167S41600416416S21Z11CF13X12CrS13SUS420J 14S42000420420S29X20Cr13Z20C1320X13X20Cr13SUS420J 25S42000420420S37X30Cr13Z33C1330X13X30Cr13SUS420FS4*******F Z30CF13X29CrS13 SUS420F 2 SUS 429J 1 SUS4319b S4*******431S29X20CrNi17 2Z15CN16-0220X17H2X19CrNi17-2SUS440AS4*******A Z70C15X70CrMo15 SUS440BS4*******BSUS440CA-1b S4*******C Z100CD1795X18X105CrMo17 SUS440F S44020S4402SUS6301(3)S17400S1740Z6CNU17-04X5CrNiCuNb16-4SUS6312(3)S17700S1770X7CrNiA1 177Z9CNA17-0709X17H7IOX7CrNiA117-7SUS632J1 JIS G4311~ 4315SUH31331S42Z35CNWS14-1445X14H14B2M耐热钢棒SUH35X53CrMnNi214349S52Z52CMN21-09耐热钢板-4SUH36S63008349S54X53CrMnNi21 9Z55CMN21-09AZ55X20G9AH4SUH37S63017381S34SUH 38 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美国高强度螺栓介绍李大生近年来涉外工程较多,经常要求使用美国高强度螺栓标准。
我们可能对美国相关规范了解不多,在阅读甲方技术资料或在设计中会出现一些困难,为了方便大家在工作中使用,现向大家简要介绍美国高强度螺栓的一些规定。
一、基本知识1.高强度螺栓是用高强度钢制造的螺栓,美国根据螺栓材料的强度将其分为如下两种:a) ASTM A325、A325M、F1852——最小抗拉强度120/105Ksi(830Mpa)b) ASTM A490、A490M、F2280——最小抗拉强度150Ksi(1040Mpa)尾部加缀“M”的为公制单位;F1852和F2280为扭剪型拉力控制高强度螺栓。
2.美国高强度螺栓有1型和3型(2型已作废),不同类型表示高强度螺栓使用不同的材质,表面处理也有差别(表面处理见RCSC高强度螺栓规范表2.1)。
高强度螺栓材料表(RCSC高强度螺栓规范2.3.3)高强度螺栓类型的标志(RCSC高强度螺栓规范2.3.3)3.大六角头高强度螺栓和扭剪型拉力控制高强度螺栓只是安装方法不同,其他各种性能完全相同。
4.高强度螺栓节点类型(RCSC高强度螺栓规范第4节)a) ST —适度拧紧连接节点,连接表面不需处理。
b) SC —摩擦型连接节点,连接表面要求处理。
c) PT —施加预拉力连接节点,连接表面不需处理。
5.承压型连接和摩擦型连接。
使用完全相同的高强度螺栓,只是承载力的概念不同,对钢材表面的要求不同。
承压型连接只适用标准孔、荷载垂直于槽孔方向的短槽孔和长槽孔;摩擦型连接适用标准孔、超大孔、短槽孔和长槽孔。
6.高强度螺栓后缀的含义:N: 承压型连接,高强度螺栓螺纹在剪切面内。
例如:A490-NX: 承压型连接,高强度螺栓螺纹在剪切面外。
TC: 扭剪型拉力控制高强度螺栓例如:A325-TCT: A325螺栓当长度≤4d时,可全螺纹,表示为A325T。
二、适度拧紧连接节点(Sung-Tightened Joint)适度拧紧节点是这样一种状态:节点内的螺栓都完全拧紧,使节点内的连接板件都紧密的接触,并防止不使用扳手可以拧动螺母。
美国ASME标准目录ASME B1.1-1989(R2001)统一英制螺纹ASME B1.12-1987(R1998)5级过盈配合螺纹ASME B1.20.3-1976(R1998)干密封管螺纹(英制)ASME B1.20.5-1991(R1998)干密封管螺纹的检测(英制)ASME B1.20.7-1991(R1998)软管接头螺纹(英制)ASME B1.3M-1992(R2001)螺纹尺寸验收的检测体系—英寸和米制螺纹(UN、UNR、UNJ、M和MJ)ASME B1.5-1997 爱克母(ACME)螺纹ASME B1.8-1988(R1994) 矮牙爱克母螺纹ASME B107.46-1998 螺柱、螺钉和管道提取器:安全要求ASME B16.10-1992 阀门的面至面和端至端尺寸ASME B16.10-2000 阀门的面对面和端至端的尺寸ASME B16.11-1996 承插焊式和螺纹式锻造管件ASME B16.11-2001(2002年颁布)承插焊式和螺纹式锻造管件ASME B16.1-1998 铸铁管法兰和法兰管件(25、125和250磅级)ASME B16.14-1991 钢铁管螺纹管堵、内外螺丝和锁紧螺母ASME B16.15-1985 (R1994)铸青铜螺纹管配件(125和250磅级)ASME B16.18-1984(R1994)铸铜合金钎焊接头受压管配件ASME B16.20a-2000 管道法兰用环垫式、螺旋缠绕式和夹层式金属垫片ASME B16.21-1992 管法兰用非金属平垫片ASME B16.22-2001 锻压铜和铜合金钎焊连接压力管配件ASME B16.24-2001 铸铜合金管法兰和法兰连接管配件ASME B16.25-1997 对焊端部ASME B16.28-1994 锻轧钢制对接焊小弯头半径弯头和180。
弯头ASME B16.3-1998 可锻铸铁螺纹管件(150和300磅级)ASME B16.33-2002 压力在125psi以下燃气系统用手动金属制燃气阀门(规格从NPS1/2至NPS2)ASME B16.34a-1998 法兰、螺纹和焊接端连接的阀门ASME B16.36-1996 孔板法兰ASME B16.38-1985(R1994)气体分配用大金属阀ASME B16.39-1998 可锻铸铁螺纹端管套节150、250和300磅级ASME B16.40-1985(R1994)气体分配系统中手动热塑切断器和阀门ASME B16.4-1998 灰铸铁螺纹管件(125和250磅级)ASME B16.42-1998 球墨铸铁管法兰和法兰连接管配件ASME B16.44a-1997 室内管道系统用手动操作金属气阀ASME B16.47a-1998 大直径管钢制法兰(NPS 26~NPS 60)ASME B16.48-1997 钢制管线盲板ASME B16.5-2003 管法兰和法兰管件ASME B16.9-1993 工厂制造的锻钢对焊管件ASME B16.9-2001 工厂制造的锻轧制对焊管配件ASME B18.10-82(R2000) 轨道螺栓和螺母ASME B18.13a-1998 螺钉和垫圈组件ASME B18.15-1985(R2003)锻制吊环螺栓ASME B18.16.1M-79(R2001) 有效力矩型钢质米制六角锁紧螺母和六角法兰面锁紧螺母的力学和性能要求ASME B18.16.2M-79(R2001) 有效力矩型钢质米制六角锁紧螺母和六角法兰面锁紧螺母的扭转拉伸试验要求ASME B18.2..4.1M-2002 米制六角螺母-类型1ASME B18.2.1a-1999 方头及六角头螺栓和螺钉ASME B18.2.2-1987(R1999)方螺母和六角螺母(英制系列)ASME B18.2.3.10M-1996 方头螺栓(米制系列)ASME B18.2.3.1M-1999 米制六角头螺钉ASME B18.2.3.2M-79(R1995) 米制成型加工六角头螺钉ASME B18.2.3.3M-79(R2001) 米制大六角头螺钉ASME B18.2.3.4M-2001 米制六角头法兰面螺钉ASME B18.2.3.5M-79(R2001) 米制六角头螺栓ASME B18.2.3.5M-79(R2001)米制六角头螺栓ASME B18.2.3.6M-79(R2001) 米制厚六角头螺栓ASME B18.2.3.6M-79(R2001) 米制厚六角头螺栓ASME B18.2.3.7M-79(R2001) 米制大六角头结构螺栓ASME B18.2.3.8M-81(R1999) 米制六角头尖端阻滞螺钉ASME B18.2.3.9M-2001 米制大六角头法兰面螺钉ASME B18.2.4.2M-79(R1995) 米制六角螺母-类型2ASME B18.2.4.3M-79(R2001) 米制六角开槽螺母ASME B18.2.4.4M-82(R1999) 米制六角法兰面螺母ASME B18.2.4.5M-79(R1998) 米制六角形压紧螺母ASME B18.2.4.5M-79(R1998) 米制六角形压紧螺母ASME B18.2.4.6M-79(R1998) 米制厚六角形螺母ASME B18.2.4.6M-79(R1998) 米制厚六角形螺母ASME B18.29.1-1993(R2002)螺旋盘绕螺纹内插件—自由旋入和螺钉锁紧(英制系列)ASME B18.5.2.1M-1996(R2001) 米制圆头短方颈螺栓ASME B18.5.2.2M-82(R2000) 米制圆头方颈螺栓ASME B18.5.2.3M-90(R1998) 大圆头方颈螺栓ASME B18.5-90(R1998) 圆头螺栓(英制系列)ASME B18.9-1996 农用防松螺栓(英制系列)ASME B18系列标准合订本(含25个标准,编号412-35至412-59)ASME B31.11a-1989(R1998)浆液输送管道系统ASME B31.1-2001 动力管道ASME B31.1-2004 动力管道ASME B31.3-1999(含A00.A01)工艺管道ASME B31.3-2002(相当2002增补) 工艺管道ASME B31.3-2004 工艺管道ASME B31.4-1998 液态烃和其他液体管线输送系统ASME B31.5-1992(R1994)制冷管道ASME B31.8-1999 输气和配气管道系统ASME B31.9-1996 建筑管道规范ASME B31G-1991 确定已腐蚀管线剩余强度的手册(对ASME B31压力管道规范的补充文件)ASME B36.10M-2000 焊接和无缝轧制钢管ASME B36.19M-1985(R1993)不锈钢钢管ASME B4.3-1978 (R1999)米制尺寸产品通用公差ASME B46.1-2002 表面结构特征(表面粗糙度、波浪度及形态)ASME B73.1-2001 化学流程用卧式轴向吸入离心泵技术规范ASME B73.2M-1991(R1999)化学过程用立式管道离心泵技术规范ASME PTC25-1994 压力泄放装置性能试验规范ASME参考书籍无损检测基本知识纲要(ASME取证必读)ASME规范Ⅰ卷动力锅炉建造规范2004ASME规范Ⅱ卷A篇铁基材料2004ASME规范Ⅱ卷B篇非铁基材料2004ASME规范Ⅱ卷C篇焊条、焊丝及填充材料2004ASME规范Ⅱ卷D篇材料性能2004ASME规范Ⅲ卷(89版)核动力设备建造规则NCA卷第一册与第二册之总要求ASME规范Ⅳ卷采暖锅炉建造规范2004ASME规范Ⅴ卷无损检测2004ASME规范Ⅵ卷采暖锅炉维护和运行推荐规则2004ASME规范Ⅶ卷动力锅炉维护推荐导则2004ASME规范Ⅷ卷 1 压力容器建造规则2004ASME规范Ⅷ卷 2 压力容器另一规则2004ASME规范Ⅷ卷 3 高压容器建造另一规则2004ASME规范Ⅸ卷焊接及钎焊评定标准2004ASME规范Ⅻ卷运输罐的建造和连续使用规则2004ASME规范Ⅲ卷核动力装置设备制造准则第一册 NB分卷一级设备1995版ASME规范Ⅲ卷核动力装置设备制造准则第一册 NC分卷二级设备1995版ASME规范Ⅲ卷核动力装置设备制造准则第一册 ND分卷三级设备1995版ASME规范Ⅲ卷核动力装置设备制造准则第一册 NF分卷设备支承结构1995版ASME规范压力管道及管件B31、B16系列标准(上册)ASME规范压力管道及管件B31、B16系列标准(下册)ANSI/ASME B1.20.1-1983(R2001)通用管螺纹ANSI/ASME B1.7M-1984(R2001)螺纹的术语、定义和字母符号。
ASME锅炉及压力容器规范(国际性规范)名Ⅱ材料 B篇非铁基材料称版2007版本号编ASME锅炉及压力容器委员会材料分委员会著出中国石化出版社出版版目录前言()政策声明()成员名单()ASTM委员会成员名单()序言()按材料排列的标准目录()标准的删除()向锅炉及压力容器委员会提出技术询问函的准备()ASME锅炉及压力容器规范批准采用新材料的准则()许用的ASTM版本()材料多重性标志导则()更改一览表()标准目录(无页码的为未选译标准)SB-26/SB-26M铝合金砂型铸件()SB-42标准尺寸无缝铜公称管()SB-43标准尺寸无缝锡锌黄铜公称管()SB-61铜镍基合金或阀门青铜铸件()SB-62复合青铜或高铜黄铜铸件()SB-75无缝铜管子()SB-96/SB-96M一般和压力容器用铜-硅合金板、薄板、带材和轧制棒材() SB-98/SB-98M铜-硅合金杆材,棒材和型材()SB-108铝合金永久模型铸件()SB-111/SB-111M铜和铜合金无缝冷凝器管子和压盖坯料()SB-127镍-铜合金(UNS N04400)板材、薄板和带材()SB-135无缝黄铜管子()SB-148铝青铜砂模铸件()SB-150/SB-150M铝青铜杆材、棒材和型材()SB-151铜-镍-锌合金(镍银)和铜-镍杆材和棒材()SB-152铜薄板、带材、板和轧制棒材()SB-160镍杆材和棒材()SB-161镍无缝公称管和管子()SB-162镍板材、薄板和带材()SB-163无缝镍和镍合金冷凝器及热交换器管子()SB-164镍-铜合金杆材、棒材和线材()SB-165镍-铜合金(UNS N04400)无缝公称管和管子()SB-166镍-铬-铁合金(UNS N06600,N06601,N06603,N06690,N06693,N06025和N06045)和镍-铬-钴-钼合金(UNS N06617)杆材,棒材和线材()SB-167镍-铬-铁合金(UNS N06600,N06601,N06603,N06690,N06693,N06025和N06045)和镍-铬-钴-钼合金(UNS N06617)无缝公称管和管子()SB-168镍-铬-铁合金(UNS N06600,N06601,N06603,N06690,N06693,N06025和N06045)和镍-铬-钴-钼合金(UNS N06617)板材、薄板和带材()SB-169铝青铜板、薄板,带材和轧制棒材()SB-171/SB-171M压力容器、冷凝器和热交换器用铜合金板材和薄板()SB-187/SB-187M铜棒材、汇流排、杆材和型材()SB-209铝和铝合金薄板和板材()SB-210铝和铝合金拉制无缝管子()SB-211铝合金棒材、杆材和线材()SB-221铝和铝合金挤压棒材、杆材和型材()SB-234冷凝器和热交换器用铝和铝合金拉制无缝管子()SB-241/SB-241M铝和铝合金无缝公称管和无缝挤压管子()SB-247铝合金模锻和手工锻锻件()SB-248轧制和冷拔铜和铜合金板、薄板、带材和轧制棒材的通用要求()SB-249/SB-249M轧制和冷拔铜和铜合金棒材、条材和型材的通用要求()SB-251轧制和冷拔铜和铜合金无缝管子通用要求()SB-265钛和钛合金带材、薄板和板材()SB-271铜基离心浇注铸件()SB-283铜和铜合金模锻件(热压)()SB-308/SB-308M铝合金6061-T6标准结构型材()SB-315无缝铜合金公称管和管子()SB-333镍-钼合金板、薄板和带材()SB-335镍-钼合金杆材()SB-338冷凝器和热交换器用无缝和焊接的钛和钛合金管子()SB-348钛和钛合金棒料和坯料()SB-359带内鳍的铜和铜合金无缝冷凝器和热交换器管子()SB-363无缝和焊接的非合金钛和钛合金焊接管配件()SB-366工厂制造锻轧镍和镍合金管配件()SB-367钛和钛合金铸件()SB-369铜-镍合金铸件()SB-381钛和钛合金锻件()SB-395U型弯头无缝铜和铜合金热交换器和冷凝器管子()SB-407无缝镍-铁-铬合金公称管和管子()SB-408镍-铁-铬合金杆材和棒材()SB-409镍-铁-铬合金板材、薄板和带材()SB-423镍-铁-铬-钼-铜合金(UNS N08825和UNS N08221)无缝公称管和管子() SB-424镍-铁-铬-钼-铜合金(UNS N08825和UNS N08221)板材、薄板和带材() SB-425镍-铁-铬-钼-铜合金(UNS N08825和UNS N08221)杆材和棒材()SB-434镍-钼-铬-铁合金(UNS N10003,UNS N10242)板材、薄板和带材() SB-435UNS N06002,UNS N06230,UNS N012160和UNS R30556板材、薄板和带材()SB-443镍-铬-钼-铌合金(UNS N06625)和镍-铬-钼-硅合金(UNS N06219)板材、薄板和带材()SB-444镍-铬-钼-铌合金(UNS N06625)和镍-铬-钼-硅合金(UNS N06219)公称管和管子()SB-446镍-铬-钼-铌合金(UNS N06625)杆材和棒材()SB-462耐腐蚀高温使用锻制或轧制(UNS N06030,UNS N06022,UNS N06035,UNS 06200,UNS N06059,UNS N06686,UNS N08020,UNS N08024,UNS N08026,UNS N08367,UNS N10276,UNS N10665,UNS N10675,UNS N10629,UNS N08031,UNS N06045,UNS N06025和UNS R20033)合金管道法兰、锻制配件、阀门和零件()SB-463UNS N08020,UNS N08026和UNS N08024合金板材、薄板和带材()SB-464焊接的UNS N08020,UNS N08024和UNS N08026合金公称管()SB-466/SB-466M无缝铜-镍合金公称管和管子()SB-467焊接的铜-镍公称管()SB-468焊接的UNS N08020,UNS N08024和UNS N08026合金管子()SB-473UNS N08020,UNS N08026和UNS N08024镍合金棒材和线材()SB-493锆和锆合金锻件()SA-494/SA-494M镍和镍合金铸件()SB-505/SB-505M铜基合金连续浇注铸件()SB-511镍-铁-铬-硅合金棒材和型材()SB-514焊接的镍-铁-铬合金公称管()SB-515焊接的UNS N08120,UNS N08800,UNS N08810和UNS N08811合金管子()SB-516焊接的镍-铬-铁合金(UNS N06600)UNS N06025和UNS N06045管子() SB-517焊接的镍-铬-铁合金(UNS N06600,UNS N06603),UNS N06025和UNS N06045公称管()SB-523/SB-523M无缝和焊接的锆和锆合金管子()SB-535镍-铁-铬合金(UNS N08330和UNS N08332)无缝公称管和管子()SB-536镍-铁-铬-硅合金(UNS N08330和UNS N08332)板材、薄板和带材() SB-543焊接的铜和铜合金热交换器管子()SB-548压力容器用铝合金板的超声波检查()SB-550/SB-550M锆和锆合金棒材和线材()SB-551/SB-551M锆和锆合金带材、薄板和板材()SB-564镍合金锻件()SB-572UNS N06002,UNS N06230,UNS N12160和UNS R 30556杆材()SB-573镍-钼-铬-铁合金(UNS N10003)杆材()SB-574低碳镍-钼-铬、低碳镍-铬-钼、低碳镍-钼-铬-钽、低碳镍-铬-钼-铜和低碳镍-铬-钼-钨合金杆材()SB-575低碳镍-钼-铬、低碳镍-铬-钼、低碳镍-铬-钼-铜、低碳镍-铬-钼-钽和低碳镍-铬-钼-钨合金板材、薄板和带材()SB-581镍-铬-铁-钼-铜合金杆材()SB-582镍-铬-铁-钼-铜合金板、薄板和带材()SB-584一般用途铜合金砂型铸件()SB-599镍-铁-铬-钼-铌稳定化合金(UNS N08700)板材、薄板和带材()SB-619焊接的镍和镍-钴合金公称管()SB-620镍-铁-铬-钼合金(UNS N08320)板材、薄板和带材()SB-621镍-铁-铬-钼合金(UNS N08320)杆材()SB-622无缝镍和镍-钴合金公称管和管子()SB-625UNS N08904,UNS N08925,UNS N08031,UNS N089032,UNS N08926和UNSR20033合金板材、薄板和带材()SB-626焊接的镍和镍-钴合金管子()SB-637高温用沉淀硬化镍合金棒材、锻件和锻坯()SB-649低碳Ni-Fe-Cr-Mo-Cu合金(UNS N08904)和低碳Ni-Fe-Cr-Mo-Cu-N合金(UNS N08925,UNS N08031和UNS N08926)和低碳Cr-Ni-Fe-N合金(UNSR20033)棒材和线材()SB-658/SB-658M无缝和焊接的锆和锆合金公称管()SB-668UNS N08028无缝管子()SB-672镍-铁-铬-钼-铌稳定化合金(UNS N08700)棒材和线材()SB-673UNS N08904,UNS N08925和UNS N08926焊接公称管()SB-674UNS N08904,UNS N08925和UNS N08926焊接管子()SB-675UNS N08367焊接公称管()SB-676UNS N08367焊接管子()SB-677UNS N08904,UNS N088925和UNS N08926无缝公称管和管子()SB-688铬-镍-钼-铁合金(UNS N08366和UNS N08367)板材、薄板和带材() SB-690铁-镍-铬-钼合金(UNS N08366和UNS N08367)无缝公称管和管子() SB-691铁-镍-铬-钼合金(UNS N08366和UNS N08367)杆材、棒材和线材() SB-704焊接的UNS N06625,UNS N06219和UNS N08825合金管子()SB-705镍合金(UNS N06625,UNS N06219和N08825)焊接公称管()SB-709铁-镍-铬-钼合金(UNS N08028)板材、薄板和带材()SB-710镍-铁-铬-硅合金焊接公称管()SB-729UNS N08020,UNS N08026和UNS N08024镍合金公称管和管子()SB-751镍和镍合金无缝和焊接管子的通用要求()SB-775镍和镍合金无缝和焊接公称管的通用要求()SB-804UNS N08367和UNS N08926焊接公称管()SB-815钴-铬-镍-钼-钨合金(UNS R31233)杆材()SB-818钴-铬-镍-钼-钨合金(UNS R31233)板材、薄板和带材()SB-824铜合金铸件通用要求()SB-829镍和镍合金无缝公称管和管子的通用要求()SB-858M用氨蒸气试验测定铜合金应力腐蚀裂纹敏感性的试验方法()SB-861无缝钛和钛合金公称管()SB-862钛和钛合金焊接公称管()SB-906压延镍和镍合金板材、薄板和带材的通用要求()SB-928/SB-928M航海及相似环境用高镁铝合金薄板和板材()SB/EN 1706铝及其合金-铸件-化学成份和力学性能()强制性附录附录Ⅰ用于公式中的标准单位()非强制性附录()附录A标准来源()。
常用材料中,美国与中国材料牌号近似对照表(一)碳素结构钢美国中国1010(AISISAE)G10100(UNS) 10(GB)1015(AISISAE)G10150(UNS) 15(GB)1020(AISISAE) 20(GB)A105-77(锻)(ASTM)1025(AISISAE)G10250(UNS) 25(GB)1030(AISISAE)G10300(UNS) 30(GB)1035(AISISAE)G10350(UNS) 35(GB)1040(AISISAE)G10400(UNS) 40(GB)A194-2H(ASTM)1045(AISISAE)G10450(UNS) 45(GB)1050(AISISAE)G10500(UNS) 50(GB)1055(AISISAE)G10550(UNS) 55(GB)1060(AISISAE)G10600(UNS) 60(GB)C1115(AISI)1115(SAE) 15Mn(GB)1022(SAE) C1022 (AISI)G10220(UNS) 20Mn(GB)1033(SAE)C1033(AISI) 30Mn(GB)A194-4(ASTM)C1036(AISI)1036(SAE) 40Mn(GB)1053(AISI)G10530(UNS) 50Mn(GB)A216-WCA(铸) (ASTM)WCB(铸)(二)合金结构钢美国中国5115(SAE)G51150(UNS) 15Cr(yB)5120(AISI,SAE)G51200(UNS) 20Cr(yB)5130(AISI,SAE)G51300(UNS) 30Cr(yB)5135(AISI,SAE)G51300(UNS) 35Cr(yB)5140(AISI,SAE)G51400(UNS) 40Cr(yB)5145,5147(AISI,SAE)G51450,G51470(UNS) 45Cr(yB)5150,5152(AISI,SAE)G51500(UNS) 50Cr(yB)4017(AISI,SAE)A182-F1(锻)A302Gr, A (ASTM)A356 Gr,2A204Gr-A,B,C 16Mo(yB)4119(SAE) 12 Cr Mo(yB)A387 Gr.BA182-F11, F12 (锻) (ASTH)15 Cr Mo(yB) 4119(SAE)4118(AISI,SAE)G41180(UNS) 20 Cr Mo(yB)25 Cr Mo(YB旧)4130(AISI,SAE) 30 Cr Mo(yB)E4132(AISI)E4135(AISI)G41350(UNS)A193-B7(ASTH)35 Cr Mo(yB)4140(AISI,SAE)G41400(UNS) 42 Cr Mo(yB)24 Cr MoV(yB)12 Cr1 MoV(yB)A356- Gr9(ASTM)A405-P24 15 Cr Mo1V(yB旧)A193-B16(ASTM)40Cr2MoV(yB旧)A217-WC1(铸) (ASTM)A217-WC6(铸)(ASTM)ZG20 Cr MoVA217-WC9(铸)(ASTM)ZG15Cr1 MoVA217-C5(铸) (ASTM)ZG2 Cr5 MoA182-F5 (锻) (ASTM)501(AISI)502(AISI)51501(SAE)S50100(UNS)S50200(UNS) 1 Cr5 Mo(GB)(三)不锈钢美国中国410(AISI)S41008(UNS)0 Cr13(GB)430(AISI)51430 (SAE)CB-30(ACI) S43000(UNS)A276-430 (ASTM) 1 Cr17(GB)403(AISI)S40300(UNS)A276-403,410A182-F6a 1 Cr13(GB)420(AISI)51210 (SAE)CA-15 S42000(UNS)A276-420(ASTM) 2 Cr13(GB)420~(AISI)CA-40(ACI) 3 Cr13(GB)4 Cr13(GB)A276-440C(ASTM)9 Cr18(GB)304(AISI)30304 (SAE)CF-8(ACI) S30400(UNS)A182-F304A276-304A193-B8,A194-8,A320-B8,B8A(ASTM)0 Cr18Ni9(GB)A351-CF8(铸)(ASTM)A296-CF8(铸) ZG0 Cr18Ni19302(AISI)30302(SAE)CF-20(ACI) S30200(UNS) 1 Cr18Ni9(GB)321(AISI)30321 (SAE)S32100(UNS)A182-F321A193-B8T(ASTM)A276-321 0Cr18Ni9Ti(GB)1A182-F316A276-316(ASTM)A193-B8MA194-8M 0Cr18Ni12Mo2Ti(GB)1351-CF8M(铸)(ASTM)A296-CF8M(铸) ZGoCr18Ni12Mo2Ti347(AISI)30347(SAE)S34700(UNS)A182-F347A193-B8C (ASTM)A276-347 1Cr18Ni11Nb(GB)(四)超低碳不锈钢美国中国304L(AISI)30304L (SAE)S30403(UNS)A182-F304L(ASTM)A276-304L 00 Cr18Ni10A351-CF3(铸)(ASTM)A296-CF3(铸) ZG00 Cr18Ni10316L(ALSI)30316L (SAE)S31603(UNS)A182-F316L(ASTM)A276-316L 00Cr17Ni14Mo2A351-CF3M(铸)(ASTM)A296-CF3M(铸) ZG00Cr17Ni14Mo2(五)低温钢美国中国适应温度/℃A352-LCB(铸) (ASTM) -46A350-LF2(锻) (ASTM)A352-LC1(铸) (ASTM) -60A352-LC2(铸) (ASTM) -73LC3A352- (铸) (ASTM)LC4 -101A350-LF3(锻) (ASTM)A351-CF8 (铸)(ASTM)A296-CF8 (铸) ZG0 Cr18Ni9 -196A351-CF8M(铸)(ASTM)A296-CF8M(铸) ZG0Cr18Ni12Mo2Ti -196 A182-F304(锻) (ASTM)0 Cr18Ni9 -196 A182-F316(锻) (ASTM)0Cr18Ni12Mo2Ti1 -196(六)弹簧钢美国中国C1065(AISI)1065(SAE)G10650(UNS) 65(YB)1084(AISI,SAE)G10840(UNS) 85(YB)9260(AISI,SAE)G92600(UNS) 60Si2Mn(yB旧)9260(AISI,SAE)G92600(UNS) 63Si2Mn(yB旧)6150(AISI)G65100(UNS) 50CrV A(yB)(七)灰铸铁美国中国HT150(GB)ASTMA126-ClassA HT200(GB)ASTMA126-ClassB HT250(GB)HT300(GB)HT350(GB)(八)球墨铸铁美国中国QT400-17(GB)QT420-10(GB)(九)可锻铸铁美国中国ASTMA47-32510 KTH300-6(GB)KTH330-8(GB)KTH350-10(GB)KTH370-12(GB)(十)黄青铜铸件美国中国ASTMB147-A110y No.7AASTMB147-A110y No.8AASTMB147-A110y No.8BASTMB145-A110y No.5AASTMB143-A110y No.1B ZCuSn8 Zn4 ASTMB143-A110y No.1A ZCuSn10 Zn2 ASTMB62-’52ZCuSn5Zn5.5ASTMB61-’52(十一)黄铜棒美国中国ASTMB283-Forging BrassASTMB21-A110yA、B、CASTMB138-A110 yA,B。
