ASTM A 313/A 313M-03 不锈钢弹簧丝技术规范
ASTMA313/A313M-03不锈钢弹簧丝技术规范
ASTMA313/A313M-03不锈钢弹簧丝技术规范ASTMA313/A313M-03是针对不锈钢弹簧丝的技术规范,该规范制定了弹簧线材的化学成分、机械性能、尺寸和允许误差等方面的要求。
以下将详细介绍ASTMA313/A313M-03规范的主要内容和应用。
该规范适用于直径为0.009英寸(0.229毫米)至0.625英寸(15.875毫米)的不锈钢弹簧丝。
根据要求,可以使用多种不锈钢材料生产弹簧丝,如Austenitic不锈钢(如302、304和316),Martensitic不锈钢(如410和420)以及合金不锈钢(如631)。
规范还针对材料的成分做出了具体要求,如最低含碳量、硫含量、磷含量和氮含量等。
机械性能是另一个重要的方面,规范规定了弹簧丝的拉伸强度、屈服强度、延伸率和硬度等参数。
这些要求能够确保不锈钢弹簧丝具有足够的强度和耐久性,以满足不同应用的需要。
此外,规范还涉及了弹簧丝的尺寸和允许误差。
规范规定了直径(或宽度和厚度)的公差范围和允许误差,以确保生产出的不锈钢弹簧丝符合精确的尺寸要求。
ASTMA313/A313M-03规范的应用非常广泛。
不锈钢弹簧丝被广泛用于各种应用,如汽车制造、航空航天、电子设备和工业机械等领域。
该规范的要求确保弹簧丝具有足够的强度、耐腐蚀性和可靠性,以适应各种环境和工作条件。
总结来说,ASTMA313/A313M-03规范是针对不锈钢弹簧丝的技术规范。
该规范详细规定了弹簧丝的化学成分、机械性能、尺寸和允许误差等方面的要求,以确保生产出符合要求的不锈钢弹簧丝,适用于各种领域的应用。
不锈钢卡压式管件标准
不锈钢卡压式管件标准不锈钢卡压式管件是一种常见的管道连接方式,其特点是简单、快速、方便、可靠。
各国都制定了相应的标准,规范了不锈钢卡压式管件的设计、制造和使用要求,以下是其中一些国际标准和国家标准的相关内容:1. ISO 2852:不锈钢卡压式管件的尺寸标准。
该标准规定了不锈钢卡压式管件的尺寸、公差和表面质量要求,包括卡箍、密封垫圈、连接口等的尺寸与性能参数。
该标准适用于食品、制药、化工等各个领域使用的不锈钢卡压式管件。
2. ASTM A269/A270/A312/A778:美国标准协会制定的一系列不锈钢卡压式管件的相关标准。
其中,ASTM A269和ASTMA270分别规定了用于食品、饮料和制药工业的不锈钢卡压式管件的化学组成、机械性能和制造工艺。
ASTM A312则包含了一般工业用途的不锈钢卡压式管件的标准规范,而ASTMA778则适用于大口径、薄壁的不锈钢卡压式管件。
3. DIN 11852:德国工业标准化组织(DIN)制定的不锈钢卡压式管件的标准。
该标准规定了不锈钢卡压式管件的外形尺寸、公差、材料要求、表面质量和连接方式等。
此外,该标准还提供了不锈钢管和管件之间的连接配合尺寸,以确保连接的可靠性和紧密性。
4. GB/T 19228.1-2011:中国标准化组织制定的不锈钢卡压式管件的标准。
该标准规定了不锈钢卡压式管件的分类、尺寸、材料、制造方法和技术要求等。
此外,该标准还对不同材料和应用领域的不锈钢卡压式管件,如食品、制药、化工等,进行了详细的分类和要求。
5. JIS G3463:日本工业标准制定的不锈钢卡压式管件的标准。
该标准规定了用于一般用途的不锈钢卡压式管件的化学成分、机械性能和制造工艺,以及外径、壁厚、公差等尺寸要求。
此标准适用于高温、高压和腐蚀性介质的输送系统。
以上仅是关于不锈钢卡压式管件标准的一些相关内容,各个国家和地区还可能有其他标准和规范。
这些标准的制定旨在确保不锈钢卡压式管件能够安全、可靠地应用于各种工业领域,并提供了可靠的参考依据,以确保管道连接的质量和性能。
钢材知识ASTM-A钢材标准
钢材知识ASTM-A钢材标准ASTM(American Society for Testing and Materials)是美国材料测试与标准制定的组织,他们制定了许多用于不同材料的标准。
其中,ASTM-A系列标准涵盖了各种钢材的规范,从合金钢到不锈钢,都有相应的标准制定。
在ASTM-A系列标准中,ASTMA314到ASTMA496是用于不同类型钢材的标准,下面将对这些标准进行简要介绍。
1.ASTMA314钢球轴承钢材标准:ASTMA314主要适用于制造高质量的轴承和相关零件的材料。
这些钢材具有高硬度、耐磨损和耐腐蚀性能,以满足在轴承和相关机械部件中的高负荷和高速旋转的要求。
2.ASTMA315无缝碳钢管标准:ASTMA315是一种适用于制造高温和高压环境下使用的无缝碳钢管的标准。
这些管材广泛应用于石油、天然气、化工、电力等行业,并且能够承受高温和高压条件下的长期使用。
3.ASTMA320高强度螺栓和螺母材料标准:ASTMA320适用于制造高强度螺栓和螺母的合金钢材料。
这些钢材通常用于在高温和高压环境下,如化工、石油和天然气等行业中,需要承受大载荷和高温条件的连接件。
4.ASTMA325结构螺栓材料标准:ASTMA325规定了用于结构连接的高强度螺栓的制造要求。
这些螺栓材料通常用于建筑、桥梁和其他重型结构中,以提供可靠的连接性和抗震能力。
5.ASTMA354高强度合金钢螺栓材料标准:ASTMA354适用于制造高强度合金钢螺栓的材料。
这些螺栓通常用于高强度结构连接,如建筑、桥梁和其他重型结构。
6.ASTMA370机械性能测试标准:ASTMA370是一个通用的机械性能测试标准,适用于所有类型的金属材料。
该标准规定了材料的拉伸、冲击、硬度等性能测试的方法和要求。
7.ASTMA380清洁和去氧化标准:ASTMA380规定了用于清洁和去除金属表面氧化物的方法和要求。
这些方法适用于钢材的表面处理,以确保钢材在使用前具有良好的表面质量和耐蚀性。
不锈弹簧钢丝
2.1. GJB3320-1998《航空用不锈弹簧钢丝规范》 国军标 GJB3320-1998 是目前国内要求最严的锈弹簧钢丝标准, 标准中包含 0Cr12Mn5Ni4Mo3Al、
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0Cr17Ni7Al、0Cr18Ni9 和 3Cr13 四个牌号,每个牌号根据使用应力状况不同又分成不同的组别。标准 规定:钢丝用钢经真空感应炉、电弧炉加炉外精炼或电弧炉加电渣重熔冶炼;钢坯经低倍检验,其横 向酸浸低倍试片上不得有目视可见的缩孔、气泡、裂纹和夹杂,一般疏松、中心疏松和偏析级别均应 大于 GB/T1979 中的 2 级。 (1) 0Cr12Mn5Ni4Mo3Al 由航空行业标准 HB5298-85《航空用 Cr12Mn5Ni4Mo3Al(69111)不锈弹簧 钢丝》升到国军标中,属于半奥氏体沉淀硬化型钢丝。该牌号钢在高温固溶状态下为奥氏体组织,含 有 5~10%的δ铁素体,具有良好的加工成形性能和焊接性能。经适量的冷加工、冷处理和时效处理, 达到较高强度 。标准规定成品钢丝分 A 和 B 两个组别供货,成品钢丝主要考核力学性能、单向扭转 和缠绕性能,0Cr12Mn5Ni4Mo3Al 弹簧钢丝的力学性能和工艺性能考核指标见表 3。 表 3 0Cr12Mn5Ni4Mo3Al 弹簧钢丝的力学性能和工艺性能
不锈钢丝扣标准
不锈钢丝扣标准标准是产品制造和质量控制的重要参考依据,对于不锈钢丝扣这样的机械零件也不例外。
本文将介绍不锈钢丝扣的一些标准,包括国内外常用的标准,以及它们的适用范围和具体要求。
一、国内常用标准在国内,不锈钢丝扣的生产和质量控制主要参照以下标准:1. 国家标准:GB/T 1003-2007 不锈钢丝 (Stainless steel wire)GB/T 1220-2007 不锈钢棒材 (Stainless steel bars)GB/T 3280-2015 不锈钢冷轧板及钢带 (Cold rolled stainless steel plate and strip)GB/T 4237-2015 不锈钢热轧板及钢带 (Hot rolled stainless steel plate and strip)GB/T 4240-2015 不锈钢箔 (Stainless steel foil)GB/T 4356-2016 不锈钢丝 (Stainless steel wire)GB/T 12771-2008 压力配件用焊接不锈钢管 (Welded stainless steel pipes for pressure purposes)GB/T 19228.1-2011 卫生不锈钢管 (Stainless steel tubes for food industry)2. 行业标准:JC/T 478-2008 电线电缆用不锈钢钎焊丝 (Stainless steel solder wire for wire and cable)CJ/T 151-2001 不锈钢件机械连接尺寸系列 (Series of dimensions for mechanical connections of stainless steel parts)二、国际常用标准国外常用的标准包括美国标准、欧洲标准和国际标准,其中一些常见的包括:1. 美国标准:ASTM A240/A240M-18 标准规范金属材料的通用要求 (Standard Specification for Chromium and Chromium-Nickel Stainless Steel Plate, Sheet, and Strip for Pressure Vessels and for General Applications) ASTM A276-17 标准规范不锈钢及相关腐蚀抵抗合金钢棒材和形状钢的一般要求 (Standard Specification for Stainless Steel Bars and Shapes)ASTM A313/A313M-18 标准规范不锈钢弹性线材,螺旋弹簧和铰链用的圆线材 (Standard Specification for Stainless Steel Spring Wire) ASTM A580/A580M-18 标准规范不锈钢丝 (Standard Specification for Stainless Steel Wire)2. 欧洲标准:EN 10088-1:2014 不锈钢-第1部分:薄板、带材和毛坯材料规范(Stainless steels - Part 1: List of stainless steels)EN 10283:2017 不锈钢钢铁及合金-非确定不锈钢和不锈铁化学成分材料的分类和命名 (Stainless steels - Classification of iron and steel materials)3. 国际标准:ISO 15510:2014 不锈钢化学成分 (Stainless steels - Chemical composition)ISO 16143-1:2014 不锈钢化学成分验证与试验方法的框架规范(Stainless steels - Chemical composition verification and method of test)三、不锈钢丝扣标准的适用范围和具体要求不锈钢丝扣的标准主要规定了其化学成分、力学性能、外观要求、尺寸容差、表面质量、检验方法等方面的要求。
A313A313M-03不锈钢弹簧丝技术规范
A313A313M-03不锈钢弹簧丝技术规范1.引言
1.1背景
1.2目的
1.3范围
2.规范性引用文件
3.术语和定义
3.1术语
3.2定义
4.材料要求
4.1不锈钢材料牌号
4.2化学成分要求
4.3机械性能要求
4.4表面处理要求
4.5尺寸和公差要求
5.工艺要求
5.1熔炼和锻造
5.2拉制和淬火
5.3清洗和表面处理
5.4精整和切割
5.5弹簧形状和尺寸要求
5.6喷涂和包装
6.检测要求
6.1化学成分检测
6.2机械性能检测
6.3表面处理检测
6.4弹簧形状和尺寸检测
7.包装、运输和贮存
7.1包装要求
7.2运输要求
7.3贮存要求
8.标志和标牌
9.质量保证要求
9.1质量控制
9.2质检文件
9.3不合格品处理
10.其他补充要求
附录A:不锈钢弹簧丝化学成分检测方法
附录B:不锈钢弹簧丝机械性能检测方法
附录C:弹簧形状和尺寸检测方法
该技术规范主要针对A313A313M-03不锈钢弹簧丝的制造和使用过程中,所涉及的材料、工艺、检测、包装等方面进行规范和要求。
文档内容完整,并包含详细的规范要求和附录,以确保不锈钢弹簧丝的质量和性能符合预期要求。
不锈钢弹簧标准-推荐下载
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不锈钢的执行标准
不锈钢的执行标准导言不锈钢是一种耐腐蚀的合金材料,其在许多领域有广泛的应用。
在不同国家和地区,不锈钢的执行标准可能会有所不同。
本文将介绍一些常见的不锈钢执行标准,帮助读者更好地了解不锈钢材料的规范和要求。
ASTM标准ASTM国际是一个在全球范围内发布和推广材料标准的组织。
在不锈钢领域,ASTM常用的标准包括ASTM A240、ASTM A276、ASTM A312和ASTM A213等。
•ASTM A240:这个标准规定了铁素体、铁素体/奥氏体(双相)和奥氏体不锈钢的化学成分和机械性能。
该标准主要适用于板、带、薄板和厚板。
•ASTM A276:这个标准涵盖了不锈钢棒材(圆棒、六角棒和方棒)的化学成分和机械性能要求。
它还包括了钢材的热处理和表面处理等内容。
•ASTM A312:该标准规定了管道、管件、配件和管路的不锈钢材料。
它涵盖了奥氏体、铁素体/奥氏体(双相)和铁素体不锈钢的化学成分和机械性能要求。
•ASTM A213:这个标准适用于无缝的奥氏体和铁素体/奥氏体(双相)不锈钢热交换器和锅炉管。
它规定了管材的化学成分和机械性能要求,以及管材的热处理和无损检测。
EN标准欧洲标准化组织(European Standardization Organization,简称CEN)发布的标准被称为EN标准。
在不锈钢行业,EN标准的主要代表是EN 10088系列。
•EN 10088-1:这个标准规定了不锈钢的一般技术交货条件。
它涵盖了化学成分、物理性能、表面质量和尺寸公差等内容。
此外,该标准还定义了不锈钢的不同牌号和符号。
•EN 10088-2:该标准详细规定了不锈钢各种牌号的化学成分和机械性能。
它还包括了不同类型的不锈钢材料的特殊要求。
•EN 10088-3:这个标准规定了不锈钢冷轧坯料和热轧坯料的技术交货条件。
它涵盖了厚度、宽度、外观、表面质量和尺寸公差等方面。
•EN 10088-4:该标准涵盖了不锈钢线材和棒材的技术交货条件。
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Designation:A 313/A 313M –03Standard Specification forStainless Steel Spring Wire 1This standard is issued under the fixed designation A 313/A 313M;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 (e )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 covers austenitic and age-hardenable stainless steel round spring wire intended especially for the manufacture of springs.1.2The values stated in inch-pound units or SI units are to be regarded separately as the standard.Within the text and tables,the SI units are shown in brackets.The values stated in each system are not exact equivalents;therefore,each system must be used independently of the bining values from the two systems may result in nonconformance with the specification.1.3Unless the order specifies an “M”designation,the material shall be furnished to inch-pound units.2.Referenced Documents 2.1ASTM Standards:A 555/A 555M Specification for General Requirements for Stainless Steel Wire and Wire Rods 2A 751Test Methods,Practices,and Terminology for Chemical Analysis of Steel Products 2E 527Practice for Numbering Metals and Alloys (UNS)32.2Society of Automotive Engineers Standard:J 1086Numbering Metals and Alloys 43.Ordering Information3.1It is the responsibility of the purchaser to specify all requirements that are necessary for material ordered under this specification.Such requirements may include,but are not limited to the following:3.1.1Quantity (weight),3.1.2Name of material (stainless steel spring wire),3.1.3Finish (see 8.1),3.1.4Dimension (diameter),3.1.5Type designation (Table 1),3.1.6ASTM designation and date of issue,3.1.7Supplementary requirements for government procure-ment,and3.1.8Special requirements.N OTE 1—A typical ordering description is as follows:2000lb (1000kg)Stainless Steel Spring Wire,cold-drawn Class 1,bright finish,0.032-in.(0.82mm)diameter,in 100-lb (50kg)16-in.(0.4m)coils,Type 302to ASTM A 313,dated ____.4.General Requirements for Delivery4.1In addition to the requirements of this specification,all requirements of the current edition of Specification A 555/A 555M shall apply.Failure to comply with the general requirements of Specification A 555/A 555M constitutes non-conformance with this specification.5.Manufacture5.1Types 302Class 1,304,305,316,321,347,and Grades S20430and XM-28shall be cold drawn to produce the required mechanical properties.5.2Type 631,Type 302Class 2,and Grade XM-16shall be furnished in the cold-drawn condition ready for fabrication.Following fabrication Type 631and Grade XM-16shall be age or precipitation hardened to produce their maximum strength properties.The tensile strengths to be obtained following the prescribed heat treatment are shown in Table 2and Table 3for hardened wire.Type 302Class 2shall be stress relieved following fabrication and meet the requirements shown in Table 4.The nominal as-drawn tensile strengths are provided as a guide for the spring manufacturer.6.Chemical Composition6.1The steel shall conform to the requirements as to chemical composition prescribed in Table 1.6.2Methods and practices relating to chemical analysis required by this specification shall be in accordance with Test Methods,Practices,and Terminology A 751.7.Mechanical Requirements 7.1Tensile Properties :1This specification is under the jurisdiction of ASTM Committee A01on Steel,Stainless Steel and Related Alloys,and is the direct responsibility of Subcommittee A01.17on Flat-Rolled and Stainless Steel.Current edition approved May 10,2003.Published June 2003.Originally approved in st previous edition approved in 1998as A 313/A 313M –98.2Annual Book of ASTM Standards ,V ol 01.03.3Annual Book of ASTM Standards,V ol 01.01.4Available from Society of Automotive Engineers (SAE),400Commonwealth Dr.,Warrendale,PA 15096.1*A Summary of Changes section appears at the end of this standard.Copyright ©ASTM International,100Barr Harbor Drive,PO Box C700,West Conshohocken,PA 19428-2959,United States.巴巴客 免费下载标准7.1.1Types 302Class 1and 304shall conform to the requirements shown in Table 5.7.1.2Types 305,316,321,and 347shall conform to the requirements shown in Table 6.7.1.3Type 631shall conform to the requirements shown in Table 2when heat treated 900°F [482°C]for 1h and air cooled.7.1.4Grade XM-16shall conform to the requirements shown in Table 3when heat treated 850°F [454°C]for 1⁄2h and air cooled.7.1.5Grade XM-28shall conform to the requirements shown in Table 7.7.1.6Type 302Class 2shall conform to the requirements shown in Table 4.7.1.7Grade S20430shall conform to the requirements shown in Table 8.7.2Wrap Test :7.2.1Wire 0.162in.[4.11mm]and smaller in diameter shall wind on itself as an arbor without breaking.7.2.2Wire larger than 0.162in.[4.11mm]in diameter shall wind without breaking on a mandrel having a diameter twice the diameter of the wire.7.3Uniformity (Coil Test):7.3.1In the as-cold drawn condition,a specimen coil shall be wound on an arbor of the size specified in Table 9to form a tightly wound coil.7.3.2After winding,the specimen coil shall be stretched to a permanent set four times its as-wound length.After this treatment,the specimen coil shall show uniform pitch with no splits or fractures.7.4Cast —A loop or ring shall be cut from the bundle and allowed to fall on the floor.The wire shall lie flat and not spring up or show a wavy condition.TABLE 1Chemical RequirementsUNS Desig-nation ATypeComposition,B %CarbonManganesePhosphorusSulfurSiliconChromiumNickelMolybdenumNitrogenOther ElementsAustenitic GradesS 24100XM-280.1511.0–14.00.0600.030 1.0016.5–19.00.50–2.500.20–0.45S 302003020.12 2.000.0450.030 1.0017.0–19.08.0–10.00.10S 304003040.08 2.000.0450.030 1.0018.0–20.08.0–10.50.10S 305003050.12 2.000.0450.030 1.0017.0–19.010.5–13.0S 316003160.07 2.000.0450.030 1.0016.5–18.010.5–13.5 2.00–2.500.10S 32100S 347003213470.080.082.002.000.0450.0450.0300.0301.001.0017.0–19.017.0–19.09.0–12.09.0–13.0Ti 53C min(Cb +Ta)103C minAge-Hardenable GradesS 17700S 45500631XM-160.090.051.000.500.0400.0400.0300.0301.000.5016.0–18.011.0–12.56.50–7.87.50–9.50.50maxAl 0.75–1.50Ti 0.80–1.40Cu 1.50–2.50(Cb +Ta)0.10–0.50S 20430...0.15 6.5–9.00.0600.030 1.0015.5–17.5 1.50– 3.500.05–0.25Cu 2.0–4.0A New designations established in accordance with Practice E 527and SAE J 1086,Practice for Numbering Metals and Alloys (UNS).BMaximum unless range is shown.TABLE 2Tensile Strength Requirements for Type 631ADiameter,in.[mm]Cold Drawn ConditionC,ksi [MPa]NominalCondition CH-900B ,ksi [MPa]min max 0.010[0.25]to 0.015[0.38],incl295[2035]335[2310]365[2515]Over 0.015[0.38]to 0.020[0.51],incl 290[2000]330[2275]360[2480]Over 0.020[0.51]to 0.029[0.74],incl 285[1965]325[2240]355[2450]Over 0.029[0.74]to 0.041[1.04],incl 275[1895]320[2205]350[2415]Over 0.041[1.04]to 0.051[1.30],incl 270[1860]310[2135]340[2345]Over 0.051[1.30]to 0.061[1.55],incl 265[1825]305[2100]335[2310]Over 0.061[1.55]to 0.071[1.80],incl 257[1770]297[2050]327[2255]Over 0.071[1.80]to 0.086[2.18],incl 255[1760]292[2015]322[2220]Over 0.086[2.18]to 0.090[2.29],incl 245[1690]282[1945]312[2150]Over 0.090[2.29]to 0.100[2.54],incl 242[1670]279[1925]309[2130]Over 0.100[2.54]to 0.106[2.69],incl 238[1640]274[1890]304[2095]Over 0.106[2.69]to 0.130[3.30],incl 236[1625]272[1875]302[2080]Over 0.130[3.30]to 0.138[3.50],incl 230[1585]260[1795]290[2000]Over 0.138[3.50]to 0.146[3.71],incl 228[1570]258[1780]288[1985]Over 0.146[3.71]to 0.162[4.11],incl 226[1560]256[1765]286[1970]Over 0.162[4.11]to0.180[4.57],incl 224[1545]254[1750]284[1960]Over 0.180[4.57]to 0.207[5.26],incl 222[1530]252[1740]282[1945]Over 0.207[5.26]to 0.225[5.72],incl 218[1505]248[1710]278[1915]Over 0.225[5.72]to 0.306[7.77],incl 213[1470]242[1670]272[1875]Over 0.306[7.77]to 0.440[11.2],incl 207[1425]235[1620]265[1825]Over 0.440[11.2]to 0.625[15.88],incl203[1400]230[1585]260[1795]A When wire is specified in straightened and cut lengths,the minimum tensile strength shall be 90%of the values listed in the table.BAged at 900°F [482°C]for 1h and air cooled.7.5Bend Test —When specified in the purchase order,Types 302,304,305,316,321,and 347shall be tested by the bend test.A piece not more than 10in.[254mm]long shall be selected from each test sample.These specimens shall be tested in a bending machine conforming substantially to Fig.1.Bends shall be made at as nearly a uniform rate as possible,notexceeding 50bends per minute,and in no case shall the speed be so great as to cause undue heating of the wire.The test specimen shall be bent back and forth through a total angle of 180°until failure occurs.Each 90°movement in either direction shall be counted as one bend.The wire shall withstand the minimum number of bends specified in Table 5and Table 6.8.Finish8.1Stainless steel spring wire is supplied with different types of finish such as bright,copper,lead,oxide,and other.9.Keywords9.1austenitic stainless steel;precipitation hardening stain-less steel;stainless steel spring wireTABLE 3Tensile Strength Requirements for Grade XM-16ADiameter,in.[mm]Cold Drawn,ksi [MPa]NominalAge Hardened B ,ksi [MPa]min max 0.010[0.25]to 0.040[1.02],incl245[1690]320[2205]350[2415]Over 0.040[1.02]to 0.050[1.27],incl 235[1620]310[2135]340[2345]Over 0.050[1.27]to 0.060[1.52],incl 225[1550]305[2100]335[2310]Over 0.060[1.52]to 0.075[1.90],incl 220[1515]295[2035]325[2240]Over 0.075[1.90]to 0.085[2.16],incl 215[1480]290[2000]320[2205]Over 0.085[2.16]to 0.095[2.41],incl 210[1450]285[1965]315[2170]Over 0.095[2.41]to 0.110[2.79],incl 200[1380]278[1915]308[2125]Over 0.110[2.79]to 0.125[3.17],incl 195[1345]272[1875]302[2080]Over 0.125[3.17]to 0.150[3.81],incl 190[1310]265[1825]295[2035]Over 0.150[3.81]to 0.500[12.7],incl180[1240]260[1795]290[2000]A When wire is straightened and cut lengths,the minimum tensile strength shall be 90%of the values listed in the table.BAged at 850°F [454°C]for 1⁄2h and air cooled.TABLE 4Tensile Strength Requirement for Type 302Class 2Diameter,in.[mm]ksi [MPa]Cold Drawn Nominal Stress Relieved A min max 0.050[1.30]to 0.160[4.00],incl290[2000]290[2000]340[2345]AStressrelieved at 800to 850°F [430to 455°C]for 1⁄2h and air cooled.Diameter,in.[mm]Bend Test Minimum Number ofBendsksi [MPa]min max Up to 0.009[0.23],incl...325[2240]355[2450]Over 0.009[0.23]to 0.010[0.25],incl ...320[2205]350[2415]Over 0.010[0.25]to 0.011[0.28],incl ...318[2190]348[2400]Over 0.011[0.28]to 0.012[0.30],incl ...316[2180]346[2385]Over 0.012[0.30]to 0.013[0.33],incl ...314[2165]344[2370]Over 0.013[0.33]to 0.014[0.36],incl ...312[2150]342[2360]Over 0.014[0.36]to 0.015[0.38],incl ...310[2135]340[2345]Over 0.015[0.38]to 0.016[0.41],incl ...308[2125]338[2330]Over 0.016[0.41]to 0.017[0.43],incl ...306[2110]336[2315]Over 0.017[0.43]to 0.018[0.46],incl ...304[2095]334[2300]Over 0.018[0.46]to 0.020[0.51],incl ...300[2070]330[2275]Over 0.020[0.51]to 0.022[0.56],incl ...296[2040]326[2250]Over 0.022[0.56]to 0.024[0.61],incl ...292[2015]322[2220]Over 0.024[0.61]to 0.026[0.66],incl 8291[2005]320[2205]Over 0.026[0.66]to 0.028[0.71],incl 8289[1995]318[2190]Over 0.028[0.71]to 0.031[0.79],incl 8285[1965]315[2170]Over 0.031[0.79]to 0.034[0.86],incl 8282[1945]310[2135]Over 0.034[0.86]to 0.037[0.94],incl 8280[1930]308[2125]Over 0.037[0.94]to 0.041[1.04],incl 8275[1895]304[2095]Over 0.041[1.04]to 0.045[1.14],incl 8272[1875]300[2070]Over 0.045[1.14]to 0.050[1.27],incl 8267[1840]295[2035]Over 0.050[1.27]to 0.054[1.37],incl 8265[1825]293[2020]Over 0.054[1.37]to 0.058[1.47],incl 7261[1800]289[1990]Over 0.058[1.47]to 0.063[1.60],incl 7258[1780]285[1965]Over 0.063[1.60]to 0.070[1.78],incl 7252[1735]281[1935]Over 0.070[1.78]to 0.075[1.90],incl 7250[1725]278[1915]Over 0.075[1.90]to 0.080[2.03],incl 7246[1695]275[1895]Over 0.080[2.03]to 0.087[2.21],incl 7242[1670]271[1870]Over 0.087[2.21]to 0.095[2.41],incl 7238[1640]268[1850]Over 0.095[2.41]to 0.105[2.67],incl 5232[1600]262[1805]Over 0.105[2.67]to 0.115[2.92],incl 5227[1565]257[1770]Over 0.115[2.92]to 0.125[3.17],incl 5222[1530]253[1745]Over 0.125[3.17]to 0.135[3.43],incl 3217[1495]248[1710]Over 0.135[3.43]to 0.148[3.76],incl 3210[1450]241[1660]Over 0.148[3.76]to 0.162[4.11],incl 3205[1415]235[1620]Over 0.162[4.11]to 0.177[4.50],incl 3198[1365]228[1570]Over 0.177[4.50]to 0.192[4.88],incl 1194[1335]225[1550]Over 0.192[4.88]to 0.207[5.26],incl 1188[1295]220[1515]Over 0.207[5.26]to 0.225[5.72],incl 1182[1255]214[1475]Over 0.225[5.72]to 0.250[6.35],incl 1175[1205]205[1415]Over 0.250[6.35]to 0.278[7.06],incl 1168[1160]198[1365]Over 0.278[7.06]to 0.306[7.77],incl 1161[1110]192[1325]Over 0.306[7.77]to 0.331[8.41],incl 1155[1070]186[1280]Over 0.331[8.41]to 0.362[9.19],incl 1150[1035]180[1240]Over 0.362[9.19]to 0.394[10.00],incl 1145[1000]175[1205]Over 0.394[10.00]to 0.438[11.12],incl 1140[965]170[1170]Over 0.438[11.12]to 0.500[12.70],incl 1135[930]165[1140]Over 0.500[12.70]130[895]160[1105]AWhen wire is specified in straightened and cut lengths,the minimum tensile strength shall be 90%of the values listed in the table.Diameter,in.[mm]Bend Test Minimum Number ofBendsksi[MPa]min maxUp to0.010[0.25],incl...245[1690]275[1895] Over0.010[0.25]to0.015[0.38],incl...240[1655]270[1860] Over0.015[0.38]to0.024[0.61],incl...235[1620]265[1825] Over0.024[0.61]to0.041[1.04],incl8235[1620]265[1825] Over0.041[1.04]to0.047[1.19],incl8230[1585]260[1790] Over0.047[1.19]to0.054[1.37],incl8225[1550]255[1760] Over0.054[1.37]to0.062[1.57],incl7220[1515]250[1725] Over0.062[1.57]to0.072[1.83],incl7215[1480]245[1690] Over0.072[1.82]to0.080[2.03],incl7210[1450]240[1655] Over0.080[2.03]to0.092[2.34],incl7205[1415]235[1620] Over0.092[2.34]to0.105[2.67],incl5200[1380]230[1585] Over0.105[2.67]to0.120[3.05],incl5195[1345]225[1550] Over0.120[3.05]to0.148[3.76],incl3185[1275]215[1480] Over0.148[3.76]to0.166[4.22],incl3180[1240]210[1450] Over0.166[4.22]to0.177[4.50],incl3170[1170]200[1380] Over0.177[4.50]to0.207[5.26],incl1160[1105]190[1310] Over0.207[5.26]to0.225[5.72],incl1155[1070]185[1275] Over0.225[5.72]to0.250[6.35],incl1150[1035]180[1240] Over0.250[6.35]to0.312[7.92],incl1140[965]170[1170] Over0.312[7.92]to0.375[9.53],incl1135[930]165[1140] Over0.375[9.53]to0.500[12.70],incl130[895]160[1105] Over0.500[12.70]125[860]155[1070] A When wire is specified in straightened and cut lengths,the minimum tensile strength shall be90%of the values listed in the table.TABLE7Tensile Strength Requirements for Grade XM-28ADiameter,in.[mm]ksi[MPa]min maxUp to0.009[0.23],incl325[2240]355[2450] Over0.009[0.23]to0.010[0.25],incl320[2205]350[2415] Over0.010[0.25]to0.011[0.28],incl318[2195]348[2400] Over0.011[0.28]to0.012[0.30],incl316[2180]346[2385] Over0.012[0.30]to0.013[0.33],incl314[2165]344[2370] Over0.013[0.33]to0.014[0.36],incl312[2150]342[2360] Over0.014[0.36]to0.015[0.38],incl310[2135]340[2345] Over0.015[0.38]to0.016[0.41],incl308[2125]338[2330] Over0.016[0.41]to0.017[0.43],incl306[2110]336[2315] Over0.017[0.43]to0.018[0.46],incl304[2095]334[2305] Over0.018[0.46]to0.020[0.51],incl300[2070]330[2275] Over0.020[0.51]to0.022[0.56],incl296[2040]326[2250] Over0.022[0.56]to0.024[0.61],incl292[2015]322[2220] Over0.024[0.61]to0.026[0.66],incl289[1995]319[2200] Over0.026[0.66]to0.028[0.71],incl286[1970]316[2180] Over0.028[0.71]to0.032[0.81],incl282[1945]312[2150] Over0.032[0.81]to0.037[0.94],incl277[1910]307[2120] Over0.037[0.94]to0.041[1.04],incl273[1880]303[2090] Over0.041[1.04]to0.047[1.19],incl270[1860]300[2070] Over0.047[1.19]to0.054[1.37],incl265[1825]295[2035] Over0.054[1.37]to0.087[2.21],incl260[1795]290[2000] Over0.087[2.21]to0.120[3.05],incl255[1760]285[1965] Over0.120[3.05]to0.166[4.22],incl250[1725]280[1930] Over0.166[4.22]to0.192[4.88],incl240[1655]270[1860] Over0.192[4.88]to0.225[5.72],incl230[1585]260[1795] Over0.225[5.72]to0.278[7.06],incl215[1480]245[1690] Over0.278[7.06]to0.331[8.41],incl200[1380]230[1585] Over0.331[8.41]to0.394[10.00],incl185[1275]215[1480] Over0.394[10.00]to0.500[12.70],incl160[1105]190[1310]A When wire is specified in straightened and cut lengths,the minimum tensile strength shall be85%of the values listed in the table.TABLE8Tensile Strength Requirement for Grade S20430 Diameter,in.[mm]ksi[MPa]min max Over0.080[2.03]to0.095[2.41],incl230[1585]260[1795]Over0.095[2.41]to0.105[2.67],incl215[1480]245[1690] TABLE9Arbor Diameter Size for Uniformity TestWire Diameter,in.[mm]Arbor Diameter,in.[mm] 0.034[0.85]and under0.102[2.60] Over0.034[0.85]to0.045[1.20],incl0.145[3.70] Over0.045[1.20]to0.055[1.40],incl0.212[5.40] Over0.055[1.40]to0.125[3.20],incl0.250[6.40] Over0.125[3.20]to0.180[4.60],incl0.350[9.00]SUPPLEMENTARY REQUIREMENTSUnless otherwise specified in the purchase order,the following supplementary requirements shall apply when this specification is used in government procurement of Type 631spring wire up to and including 0.162in.[4.11mm]in diameter.S1.Wrapping TestS.1.1A wire specimen shall be wrapped five complete turns around a mandrel equal to the diameter of the wire without any surface breaks or cracks occurring in the wire.One specimen shall be taken from every ten coils in the lot.S2.Surface ExaminationS2.1A wire specimen shall be etched electrolytically in a 75%phosphoric acid solution with a current density of 1A/in 2.for a sufficient time to remove up to 1%of the diameter.After etching the surface of the wire specimen it shall be examined under a 10power microscope for splits,seams,pits,die marks,scratches,or other imperfections tending to impair the fatigue resistance of springs.Appropriate higher magnification should be used for sizes below 0.125in.[3.17mm].Lubricating coatings,which are insoluble in acid etch solution,shall be removed beforeetching.Diameter of Wire,in.[mm]Clearance C 60.005,in.[mm]Over 0.026to 0.105[0.65to 2.70],incl Over 0.105to 0.162[2.70to 4.10],incl Over 0.162to 0.180[4.10to 4.60],incl0.688[17.50]0.813[20.50]0.938[24.00]FIG.1Schematic Arrangement of BendingMachineSUMMARY OF CHANGESCommittee A01has identified the location of selected changes made to this standard since the last issue (A313/A313M-98)that may impact the use of this standard(approved May10,2003).(1)The composition of S30200was revised in Table1.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().。