ASTM A36钢材标准

一文看懂ASTMA36材质各项性能指标ASTMA36用途及使用规范详细介绍
一、ASTMA36钢板介绍
ASTMA36属于美标碳素结构钢板吗，ASTMA36钢板执行标准为ASME 专用技术条件。

二、ASTMA36钢板用途说明
ASTMA36钢板为结构钢板，常在机械制造业应用较多例如；工程机械装备制造、重工机械装备制造、钢结构工程、五金设备、精品机械设备等
三、ASTMA36钢板交货状态介绍
ASTMA36钢板可做正火、回火、控扎等技术要求交货。

ASTMA36钢板厚度探伤可做‘1探、2探、3探’
ASTMA36钢板厚度延伸可做‘z15、z25、z35’
检测金属材料或部件内部的裂纹或缺陷。

常用的探伤方法有：X光射线探伤、超声波探伤、磁粉探伤、渗透探伤、涡流探伤、γ射线探伤、萤光探伤、着色探伤等方法。

物理探伤就是不产生化学变化的情况下进行无损探伤。

无损探伤是在不损坏工件或原材料工作状态的前提下，对被检验部件的表面和内部质量进行检查的一种测试手段。

热处理方法为退火、正火加回火，或者当采购方同意时，从奥氏体化温度采用鼓风或液体淬冷的方法加速冷却，随后进行回火。

回火温度下限值为675℃。

当未指明按a条的要求热处理是，则应以消除应力处理或退火状态交货。

A36与Q‎235B相‎近，不过A36‎与Q235‎B不同之处‎如下：1.屈服点不一‎样的（A36=250MP‎a，Q235B‎=235MP‎a);2.抗拉强度不‎同（A36=400-550MP‎a，Q235B‎=375-500MP‎a);3.对元素的含‎量要求不同‎：（A36: C≤0.25%，Si≤0.4%,P≤0.04%,S≤0.05%;Q235B‎:C=0.12- 0.2%,Si≤0.3,P≤0.045%,S≤0.045%).Q235对‎锰含量有要‎求Mn=0.30-0.70% A36对锰‎含量没要求‎如果仅仅从‎材料的力学‎性能上比较‎，觉得A36‎与优质碳素‎结构钢20‎#的力学性能‎相似。

20#钢的抗拉强‎度不小于4‎10，屈服强度不‎小于245‎，与A36力‎学性能差不‎多。

A36、SS400‎以及Q23‎5比较三维‎1．标准制定方‎不同A36为美‎标ASME‎标准（与ASTM‎规范等同）的材料，SS400‎为日标JI‎S G3101‎(普通结构用‎轧制钢材）的材料，Q235为‎国标GB7‎00标准的‎材料。

GB700‎：Q235JIS G3101‎：SS400‎ASME：A362．材料化学成‎分不同A36、SS400‎以及Q23‎5化学成分‎对照表三维‎见附件A36中对‎M n元素的‎含量因板材‎厚度（或者圆钢直‎径）的不同而不‎用，20mm以‎下的，不含Mn。

Q235的‎对C、Si、Mn、S、P等元素的‎含量均作了‎要求，但SS40‎0只要求S‎、P小于0.050，其他没作要‎求。

3．材料力学性‎能不同三维‎A36的抗‎拉强度为5‎8~80 Ksi （约400~550MP‎a），屈服强度为‎36 Ksi (约250M‎P a)；Q235的‎抗拉强度为‎370~500 MPa，屈服强度为‎235MP‎a；SS400‎的抗拉强度‎为 400~510 MPa，屈服强度为‎245MP‎a Mn（SS400‎以及Q23‎5的力学性‎能均以钢板‎厚度小于1‎6mm的为‎例。

Designation:A36/A36M−14Standard Specification forCarbon Structural Steel1This standard is issued under thefixed designation A36/A36M;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 U.S.Department of Defense.1.Scope*1.1This specification2covers carbon steel shapes,plates, and bars of structural quality for use in riveted,bolted,or welded construction of bridges and buildings,and for general structural purposes.1.2Supplementary requirements are provided for use where additional testing or additional restrictions are required by the purchaser.Such requirements apply only when specified in the purchase order.1.3When the steel is to be welded,a welding procedure suitable for the grade of steel and intended use or service is to be utilized.See Appendix X3of Specification A6/A6M for information on weldability.1.4The values stated in either inch-pound units or SI units are to be regarded separately as standard.Within the text,the SI units are shown in brackets.The values stated in each system are not exact equivalents;therefore,each system is to be used independently of the other,without combining values in any way.1.5The text of this specification contains notes or footnotes, or both,that provide explanatory material.Such notes and footnotes,excluding those in tables andfigures,do not contain any mandatory requirements.1.6For structural products produced from coil and fur-nished without heat treatment or with stress relieving only,the additional requirements,including additional testing require-ments and the reporting of additional test results,of A6/A6M apply.2.Referenced Documents2.1ASTM Standards:3A6/A6M Specification for General Requirements for Rolled Structural Steel Bars,Plates,Shapes,and Sheet PilingA27/A27M Specification for Steel Castings,Carbon,for General ApplicationA307Specification for Carbon Steel Bolts,Studs,and Threaded Rod60000PSI Tensile StrengthA325Specification for Structural Bolts,Steel,Heat Treated, 120/105ksi Minimum Tensile StrengthA325M Specification for Structural Bolts,Steel,Heat Treated830MPa Minimum Tensile Strength(Metric)A500Specification for Cold-Formed Welded and Seamless Carbon Steel Structural Tubing in Rounds and ShapesA501Specification for Hot-Formed Welded and Seamless Carbon Steel Structural TubingA502Specification for Rivets,Steel,StructuralA563Specification for Carbon and Alloy Steel NutsA563M Specification for Carbon and Alloy Steel Nuts(Met-ric)A668/A668M Specification for Steel Forgings,Carbon and Alloy,for General Industrial UseA1011/A1011M Specification for Steel,Sheet and Strip, Hot-Rolled,Carbon,Structural,High-Strength Low-Alloy,High-Strength Low-Alloy with Improved Formability,and Ultra-High StrengthA1018/A1018M Specification for Steel,Sheet and Strip, Heavy-Thickness Coils,Hot-Rolled,Carbon, Commercial,Drawing,Structural,High-Strength Low-Alloy,High-Strength Low-Alloy with Improved Formability,and Ultra-High StrengthF568M Specification for Carbon and Alloy Steel Externally1This specification is under the jurisdiction of ASTM Committee A01on Steel, Stainless Steel and Related Alloys and is the direct responsibility of Subcommittee A01.02on Structural Steel for Bridges,Buildings,Rolling Stock and Ships.Current edition approved Dec.1,2014.Published December2014.Originallyapproved st previous edition approved in2012as A36/A36M–12.DOI: 10.1520/A0036_A0036M-14.2For ASME Boiler and Pressure Vessel Code Applications,see related Specifi-cations SA-36in Section II of that Code.3For 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.*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 StatesThreaded Metric Fasteners (Metric)(Withdrawn 2012)4F1554Specification for Anchor Bolts,Steel,36,55,and 105-ksi Yield Strength 3.Appurtenant Materials3.1When components of a steel structure are identified with this ASTM designation but the product form is not listed in the scope of this specification,the material shall conform to one of the standards listed in Table 1unless otherwise specified by the purchaser.4.General Requirements for Delivery4.1Structural products furnished under this specification shall conform to the requirements of the current edition of Specification A6/A6M ,for the specific structural product ordered,unless a conflict exists in which case this specification shall prevail.4.2Coils are excluded from qualification to this specifica-tion until they are processed into a finished structural product.Structural products produced from coil means structural prod-ucts that have been cut to individual lengths from a coil.The processor directly controls,or is responsible for,the operations involved in the processing of a coil into a finished structural product.Such operations include decoiling,leveling or straightening,hot-forming or cold-forming (if applicable),cutting to length,testing,inspection,conditioning,heat treat-ment (if applicable),packaging,marking,loading for shipment,and certification.N OTE 1—For structural products produced from coil and furnished without heat treatment or with stress relieving only,two test results are to be reported for each qualifying coil.Additional requirements regarding structural products produced from coil are described in Specification A6/A6M .5.Bearing Plates5.1Unless otherwise specified,plates used as bearing plates for bridges shall be subjected to mechanical tests and shall conform to the tensile requirements of Section 8.5.2Unless otherwise specified,mechanical tests shall not be required for plates over 11⁄2in.[40mm]in thickness used as bearing plates in structures other than bridges,subject to the requirement that they shall contain 0.20to 0.33%carbon by heat analysis,that the chemical composition shall conform to the requirements of Table 3in phosphorus and sulfur content,and that a sufficient discard shall be made to secure sound plates.6.Materials and Manufacture 6.1The steel shall be killed7.Chemical Composition7.1The heat analysis shall conform to the requirements prescribed in Table 3,except as specified in 5.2.7.2The steel shall conform on product analysis to the requirements prescribed in Table 3,subject to the product analysis tolerances in Specification A6/A6M .8.Tension Test8.1The material as represented by the test specimen,except as specified in 5.2and 8.2,shall conform to the requirements as to the tensile properties prescribed in Table 2.8.2Shapes less than 1in.2[645mm 2]in cross section and bars,other than flats,less than 1⁄2in.[12.5mm]in thickness or diameter need not be subjected to tension tests by the manufacturer,provided that the chemical composition used is appropriate for obtaining the tensile properties in Table 2.9.Keywords9.1bars;bolted construction;bridges;buildings;carbon;plates;riveted construction;shapes;steel;structural steel;welded construction4The last approved version of this historical standard is referenced on .TABLE 1Appurtenant Material SpecificationsN OTE 1—The specifier should be satisfied of the suitability of these materials for the intended application.Chemical composition or mechani-cal properties,or both,may be different than specified in A36/A36M.MaterialASTM DesignationSteel rivets A502,Grade 1BoltsA307,Grade A or F568M ,Class 4.6High-strength bolts A325or A325M Steel nuts A563or A563MCast steelA27/A27M ,Grade 65–35[450–240]Forgings (carbon steel)A668/A668M ,Class DHot-rolled sheets and stripA1011/A1011M ,SS Grade 36[250]Type 1or Type 2or A1018/A1018M ,SS Grade 36[250]Cold-formed tubing A500,Grade B Hot-formed tubing A501Anchor boltsF1554,Grade 36TABLE 2Tensile Requirements APlates,Shapes,B and Bars:Tensile strength,ksi [MPa]58–80[400–550]Yield point,min,ksi [MPa]36[250]C Plates and Bars:D ,EElongation in 8in.[200mm],min,%20Elongation in 2in.[50mm],min,%23Shapes:Elongation in 8in.[200mm],min,%20Elongation in 2in.[50mm],min,%21BASee the Orientation subsection in the Tension Tests section of Specification A6/A6M .BFor wide flange shapes with flange thickness over 3in.[75mm],the 80ksi [550MPa]maximum tensile strength does not apply and a minimum elongation in 2in.[50mm]of 19%applies.CYield point 32ksi [220MPa]for plates over 8in.[200mm]in thickness.DElongation not required to be determined for floor plate.EFor plates wider than 24in.[600mm],the elongation requirement is reduced two percentage points.See the Elongation Requirement Adjustments subsection under the TensionTests section of Specification A6/A6M .SUPPLEMENTARY REQUIREMENTSThese requirements shall not apply unless specified in the order.Standardized supplementary requirements for use at the option of the purchaser are listed in Specification A6/A6M .Those that are considered suitable for use with this specification are listed by title:S5.Charpy V-Notch Impact Test.S30.Charpy V-Notch Impact Test for Structural Shapes:Alternate Core LocationS32.Single Heat BundlesS32.1Bundles containing shapes or bars shall be from a single heat of steel.SUMMARY OF CHANGESCommittee A01has identified the location of selected changes to this standard since the last issue (A36/A36M –12)that may impact the use of this standard.(Approved Dec.1,2014.)(1)Revised Table 3to modify phosphorus and sulfur limits for plate products greater than 15in.[380mm]in width.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 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 every five 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,PA 19428-2959,United States.Individual reprints (single or multiple copies)of this standard may be obtained by contacting ASTM at the above address or at 610-832-9585(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 Copyright Clearance Center,222Rosewood Drive,Danvers,MA 01923,Tel:(978)646-2600;/TABLE 3Chemical RequirementsN OTE 1—Where “...”appears in this table,there is no requirement.The heat analysis for manganese shall be determined and reported as described in the heat analysis section of Specification A6/A6M .ProductShapes APlates >15-in.[380mm]Width B Bars;Plates #15-in.[380mm]Width B Thickness,in.[mm]All To 3⁄4[20],incl Over 3⁄4to 11⁄2[20to 40],incl Over 11⁄2to 21⁄2[40to 65],incl Over 21⁄2to 4[65to 100],incl Over 4[100]To 3⁄4[20],incl Over 3⁄4to 11⁄2[20to 40],incl Over 11⁄2to 4[100],incl Over 4[100]Carbon,max,%0.260.250.250.260.270.290.260.270.280.29Manganese,%......0.80–1.200.80–1.200.85–1.200.85–1.20...0.60–0.900.60–0.900.60–0.90Phosphorus,max,%0.040.0300.0300.0300.0300.0300.040.040.040.04Sulfur,max,%0.050.0300.0300.0300.0300.0300.050.050.050.05Silicon,%0.40max 0.40max 0.40max 0.15–0.400.15–0.400.15–0.400.40max 0.40max 0.40max 0.40max Copper,min,%whencop per steel is specified0.200.200.200.200.200.200.200.200.200.20A Manganese content of 0.85–1.35%and silicon content of 0.15–0.40%is required for shapes with flange thickness over 3in.[75mm].BFor each reduction of 0.01percentage point below the specified carbon maximum,an increase of 0.06percentage point manganese above the specified maximum will be permitted,up to the maximum of 1.35%.。

D0l:10.16767/ki.10-1213/tu.2019.11.003美标结构钢材A36与国标结构钢材Q235.Q235GJ性能对比邱远华深圳市水务规划设计院股份有限公司摘要：本文对比了中美两种常用结构钢材的化学成分与力学性能指标，供从事国外工程设计的技术人员借鉴。

关键词:结构钢材;A36；力学性能1化学成分对钢材性能的影响结构钢材的力学性能由其化学组成决定，碳素结构钢的主化学元素对钢材性能的影响如下：碳:碳是碳素钢与合金钢强度的主要影响元素，一般来说，每增加0.01%的碳,强度就能增加约3.5MPa,但同样伴随着硬度的增加、延性降低、缺口韧性的降低、可焊性变差、更容易老化等问题。

因此一般都会限制结构钢材中的碳元素含量，通常结构钢材中的碳元素含量不高于0.3%,或者更低，这主要取决于其他元素的含量与对钢材可焊性，缺口韧性的要求。

铜：含铜量达0.35%的碳素结构钢可显著提高其抗大气腐蚀性,在含铜量增加到1.0%之前,随着铜的增加，碳素结构钢的抗大气腐蚀性仍持续增加,虽然增速并不是十分迅速。

铜可提高强度与同比例地提高疲劳极限。

但含铜量的增加也会带来延性、缺口韧性与可焊性降低等问题。

猛:猛可增加钢材的强度,淬透性，疲劳极限,缺口韧性和耐腐蚀性。

它会降低延展性和断裂转变温度及可阻碍老化。

此外，它还可以抵消由硫引起的热脆性，因为这个原因，镒含量应该是硫含量的3~8倍，这取决于钢的类型。

但是，猛会降低可焊性。

硅:硅可增加钢材的强度,缺口韧性和淬透性。

它会降低延.ktfcfezfiE®I*硫磷为有害物质:其含量越低，钢材性能越好。

2结构钢材化学成分对比ASTM A36为美标碳素结构钢，是一种常用的结构钢材，国标与其对标的是碳素结构钢为Q235。

另外，作为近年来成功广泛使用的高性能结构钢Q235GJ,因它强度与A36相近，也一并进行比较。

美标A36结构钢材化学成分见表1。

国标碳素结构钢Q235化学成分见表2。

ASTM A36钢板是一种常用的结构钢板材料，广泛应用于建筑、桥梁、机械制造等领域。

在生产和加工ASTM A36钢板时，其厚度偏差是一个非常重要的质量指标，直接影响到钢板的使用性能和加工工艺。

ASTM A36钢板的厚度偏差标准成为了生产企业和用户关注的焦点之一。

一、ASTM A36钢板厚度偏差的定义及影响1. 定义：ASTM A36钢板的厚度偏差是指在生产过程中，钢板实际厚度与设计厚度之间的偏差值，通常以厚度公差来表示。

2. 影响：ASTM A36钢板的厚度偏差直接影响到其在使用过程中的负荷承受能力、安装工艺以及与其他构件的连接等方面。

二、ASTM A36钢板厚度偏差的标准1. 标准依据：ASTM A36钢板的厚度偏差标准是根据设计标准和生产工艺来确定的，具有一定的科学性和合理性。

2. 标准要求：ASTM A36钢板的厚度偏差标准主要包括正负公差范围、测量方法、允许偏差值等内容，确保钢板的质量符合设计要求。

三、ASTM A36钢板厚度偏差的控制方法1. 生产控制：生产企业应通过严格的生产工艺控制，确保ASTM A36钢板的厚度偏差在标准范围内，避免出现过大的偏差影响钢板的质量。

2. 检测手段：在生产过程中，应使用适当的检测手段对ASTM A36钢板的厚度偏差进行监测和控制，及时发现并纠正偏差。

四、ASTM A36钢板厚度偏差标准的应用1. 生产应用：生产企业在生产ASTM A36钢板时，应严格按照厚度偏差标准进行控制，确保产品质量。

2. 使用应用：用户在选择和使用ASTM A36钢板时，应参考厚度偏差标准，确保选用合格的钢板，提高工程质量。

五、ASTM A36钢板厚度偏差标准的未来发展趋势1. 完善标准：随着科技的发展和生产工艺的更新，ASTM A36钢板厚度偏差标准将不断完善，以适应市场和用户需求。

2. 质量保障：未来，ASTM A36钢板厚度偏差标准的应用将更加广泛，质量保障将成为行业的重要诉求。

astm a36 的执行标准ASTM A36是一种常用的低碳结构钢材料，其执行标准为ASTM A36/A36M-19。

该标准规定了A36钢材的化学成分、机械性能、试验方法以及标准尺寸等方面的要求。

下面将对ASTM A36执行标准的内容及相关参考进行分析。

ASTM A36的化学成分主要包括碳（C）、锰（Mn）、磷（P）、硫（S）、硅（Si）和铜（Cu）等元素。

其要求碳含量不超过0.25%，锰含量范围为0.80-1.20%。

此外，磷、硫和铜的含量均有限制。

这些元素的控制可以保证A36钢具有良好的可焊性、可加工性和抗腐蚀性。

从机械性能方面来看，ASTM A36对材料的强度、屈服点和延伸率等性能进行了规定。

最小屈服强度为250MPa，最低抗拉强度为400-550MPa，最小延伸率为20%。

这些机械性能要求能够保证A36钢在各种应力环境下具有足够的强度和塑性。

在试验方法方面，ASTM A36规定了用于化学成分分析、硬度测试、拉伸试验和冲击试验等的标准方法。

例如，化学成分分析可采用电感耦合等离子体发射光谱法（ICP）进行元素含量的测定。

而拉伸试验则采用了标准拉伸试验机和标准试验样品，以测定材料的屈服强度、抗拉强度和延伸率等性能指标。

对于标准尺寸，ASTM A36规定了钢板、钢板和钢棒的尺寸和公差。

这些尺寸要求用于生产和供应A36钢材料时的尺寸控制，以保证所提供的材料符合规定的要求。

ASTM A36的执行标准提供了从化学成分到机械性能的全面规定，确保了A36钢材的质量和性能。

这使得ASTM A36广泛应用于建筑、制造和桥梁等领域。

相关行业和领域的标准和规范也可能引用了ASTM A36，以确保项目的质量和性能。

在国内，ASTM A36的执行标准对应的国内标准为GB/T 700-2006。

GB/T 700-2006规定了与ASTM A36基本相同的化学成分和机械性能要求。

这样可以使得国内供应商更好地生产和供应符合ASTM A36标准的 A36钢材。

标准编号：A36/A36M-08 碳素结构钢标准规范此标准在修订的A36/A36M的范围内发行。

紧随其后的数字是指原本通过的年份或者，如果修订，是最新版本年份。

在括号内的数字是指最后重新通过的年份。

上标数字表示从最新版本或最新通过的编辑变化。

1.范围1.1此规范涵盖了碳素钢型材、板材，和用于桥及建筑的铆钉的、螺栓连接的或者焊接构造，以及一般结构性用途。

1.2所提供的补充要求用于买方要求的附加试验或附加限制。

那些要求只在买方订单中指定。

1.3当钢材焊接时，将采用适合钢材等级的焊接程序或计划用途及服务。

见规范A6/A 6M规范中的Appendix X3获得有关焊接信息。

1.4采用英寸-镑单位或国际公制单位规定的任一数值，分别被认为参照标准。

在此文中，国际标准单位在方括号内显示。

任一系统的规定值不是精确的要求；因此，每个系统可以与其他分开单独使用而无任何混合值。

1.5此规范正文包括了注释及脚注或者两者都有，是提供了说明性材料。

除了表格和图表中的，其他注释和脚注不包含任何强制性要求。

1.6对于coil（钢卷）和无热处理或只消除应力（低温退火？）的构件，附加要求包括附加试验要求和附加试验结果报告、A6/A6M 实施报告。

2. 参考资料2.1 ASTM标准A 6/A 6M 规范：用于热轧结构性钢筋（steel bars）、板材、型材和钢板桩的一般要求。

A 27/A 27M 规范：用于钢铸件、碳钢的一般应用。

A307 规范：碳钢螺栓和螺柱，60000PSI的抗拉强度。

A325 规范：结构性螺栓、钢材、热处理120/105 ksi的最小抗拉强度。

A325M 规范：结构性螺栓、钢材、热处理的830MPa的最小抗拉强度（公制）。

A500 规范：圆钢和型钢的冷成型焊接与无缝碳钢结构管A501 规范：热成型焊接和无缝碳钢结构管A502 规范：结构钢铆钉A563 规范：碳素和合金钢螺母A563M 规范：碳素和合金钢螺母（公制）A668/A668M规范：钢锻件、碳钢、合金钢的一般工业用途A1011/A 1011M规范：高强度低合金碳素结构钢和改良性超高强度低合金钢热轧钢板和钢带A1018/A1018M规范：高强度低合金和改良性高强度低合金热轧厚镀锡卷板结构碳钢板和钢带F568M规范：碳及合金钢公制外螺纹紧固件（公制）F1554规范：钢制36、55和105ksi 屈服强度的地脚螺栓。