ASTM钢铁标准.A966A966M
astm材质标准
astm材质标准
ASTM是美国材料与试验协会(American Society for Testing and Materials)的简称,现已改名为ASTM 国际(ASTM International)。
ASTM制定了许多用于材料的标准规范,其中包括各种材质的标准。
ASTM材质标准按照不同的材料类型和应用领域进行分类。
以下是一些常见的ASTM材质标准及其适用范围:
1. 钢铁材料:
- ASTM A36/A36M: 结构用碳素结构钢板
- ASTM A53/A53M: 焊接和无缝碳素钢管
- ASTM A106/A106M: 热轧无缝碳钢管
-ASTM A240/A240M: 不锈钢平板、带材和薄板
-ASTM A312/A312M: 无缝和焊接奥氏体不锈钢管
2. 铝合金材料:
- ASTM B209: 铝和铝合金板、带材和薄板
- ASTM B221: 铝合金挤压形材
-ASTM B308/B308M: 铝合金棒材、棒材和型材
3. 塑料材料:
- ASTM D638: 塑料拉伸性能测试方法
- ASTM D792: 塑料密度测试方法
- ASTM D256: 塑料冲击强度测试方法
4. 混凝土和建筑材料:
- ASTM C33/C33M: 砂和石料的规范
- ASTM C150/C150M: 普通硅酸盐水泥的规范
-ASTM C618: 煤矸石灰质填充料和粉煤灰的规范
以上仅是一些例子,ASTM还制定了许多其他材质的标准,涵盖了广泛的工业领域。
具体的ASTM材质标准可以在ASTM官方网站或相关文献中找到。
ASTM钢管标准1
ASTM钢管标准1A1000-99 弹簧专用碳钢和合金钢钢丝规范A1001-99 大型材高强度钢铸件规范A1002-99 镍铝类合金铸件规范A100-93(2000) 硅铁A101-93(2000) 铬铁A102-93(2000) 钒铁合金A105/A105M-01 管系部件用碳素钢锻件A106-999e1 高温用无缝碳素钢管A108-99 优质冷加工碳素钢棒材技术规范A109/A109M-00e1 冷轧碳素钢带技术规范A111-99a 电话和电报线路用镀锌"铁"丝规格A116-00 镀锌钢丝编织栏栅网A121-99 镀锌刺钢丝A123/A123M-00 钢铁产品的锌镀层(热浸镀锌)技术规范A125-96 热处理螺旋形钢弹簧A126-95(2001) 阀门、法兰和管配件用灰铁铸件A128/A128M-93(1998) 钢铸件,奥氏体锰A131/A131M-94 海船用结构钢A132-89(2000) 钼铁合金A134-96 电熔(电弧)焊钢管(NPS为16英寸和16英寸以上)A135-01 电阻焊钢管A139-00 电熔(电弧)焊钢管(4英寸以上的)A143-74(1999) 热浸镀锌结构钢制品防脆裂措施和探测脆裂的程序A146-64(2000) 氧化钼制品A148/A148M-01 结构用高强度钢铸件A153/A153M-00 钢铁制金属构件上镀锌层(热浸)A159-83(2001) 汽车用灰铁铸件A167-99 不锈钢和耐热铬镍钢板、薄板及带材A176-99 不锈钢和耐热铬钢板、薄板及带材A178/A178M-95(2000) 电阻焊接碳素钢钢管及碳锰钢锅炉和过热器管的技术规范A179/A179M-90a(1996)e1 热交换器和冷凝器用无缝冷拉低碳钢管A181/A181M-01 普通锻制碳素钢管的规格A182/A182M-01 高温设备用锻制或轧制的合金钢管法兰、锻制管件、阀门及零件A183-98 钢轨用碳素钢螺栓和螺母A184/A184M-01 混凝土加筋用变形钢筋编织网A185-97 钢筋混凝土用焊接钢丝结构A1-00 碳素钢丁字轨A192/A192M-91(1996)e1 高压用无缝碳素钢锅炉管A193/A193M-01 高温设备用合金钢和不锈钢螺栓材料A194/A194M-01 高温和高压设备用碳素钢与合金钢螺栓和螺母的规格A197/A197M-00 化铁炉用可锻铸铁A20/A20M-01 压力容器用钢板材通用要求A202/A202M-93(1999) 压力容器用铬锰硅合金钢板A203/A203M-97 压力容器用镍合金钢板A204/A204M-93(1999) 压力容器用钼合金钢板A209/A209M-98 锅炉和过热器用无缝碳钼合金钢管A210/A210M-96 锅炉和过热器用无缝中碳素管A213/A213M-01 无缝铁素体和奥氏体合金钢锅炉、过热器和换热器管A214/A214M-96 热交换器与冷凝器用电阻焊接碳素钢管A216/A216M-93(1998) 高温下使用的适合于熔焊的碳素钢铸件规格A217/A217M-01 适合高温受压零件用合金钢和马氏体不锈钢铸件A21-94(1999) 铁路用未经热处理和经热处理的碳素钢轴A220/A220M-99 珠光体可锻铁A225/A225M-93(1999) 压力容器用锰矾镍合金钢板A227/A227M-99 机械弹簧用冷拉钢丝A228/A228M-00 乐器用优质弹簧钢丝A229/A229M-99 机械弹簧用油回火的钢丝A230/A230M-99 阀门用油回火优质碳素钢弹簧丝A231/A231M-96 铬钒合金钢弹簧丝A232/A232M-99 阀门用优质铬钒合金钢弹簧丝A234/A234M-00a 中温与高温下使用的锻制碳素钢及合金钢管配件A239-95(1999) 用普力斯试验法(硫酸铜浸蚀)确定铁或钢制品上镀锌层最薄点的测试方法A240/A240M-01 压力容器用耐热铬及铬镍不锈钢板、薄板及带材A242/A242M-00a 高强度低合金结构钢A247-67(1998) 铁铸件中石墨显微结构评定试验方法A249/A249M-01 锅炉、过热器、换热器和冷凝器用焊接奥氏体钢管A250/A250M-95(2001) 锅炉和过热器用电阻焊铁素体合金钢管A252-98e1 焊接钢和无缝钢管桩A254-97 铜焊钢管规格A255-99 测定钢淬透性用末端淬火试验的标准试验方法A262-98 奥氏体不锈钢晶间浸蚀敏感性的检测A263-94a(1999) 耐腐蚀铬钢包覆板材,薄板材及带材技术规范A264-94a(1999) 包覆的不锈铬镍钢板,薄板及带材规格A265-94a(1999) 镍和镍基合金包覆钢板规格A266/A266M-99 压力容器部件用碳素钢锻件规格A268/A268M-01 一般设备用无缝和焊接铁素体与马氏体不锈钢管A269-01 一般设备用无缝和焊接奥氏体不锈钢管A27/A27M-95(2000) 通用碳素钢铸件A270-01 卫生设施用无缝钢和焊接奥氏体不锈钢管A275/A275M-98 钢锻件的磁粉检查试验方法A276-00a 不锈钢棒材和型材A278-93 适用于650F容压部件用灰铸铁件的技术规范A283/A283M-00 低和中等抗拉强度碳素钢板A285/A285M-90(2001) 压力容器用低和中等抗拉强度的碳素钢板A288-91(1998) 涡轮发电机磁性定位环用碳素钢和合金钢锻件A289/A289M-97 发电机非磁性定位环用合金钢锻件的技术规范A29/A29M-99e1 热锻及冷加工碳素钢和合金钢棒A2-90(1997) 普通型,带槽和防护型碳素工字钢轨A290-95(1999) 减速器环用碳素钢和合金钢锻件A291-95(1999) 减速器小齿轮、齿轮和心轴用碳素钢和合金钢锻件A295-98 高碳耐磨轴承钢技术规范A297/A297M-97(1998) 一般用耐热铬铁与镍铬铁合金钢铸件规格A299/A299M-97e1 压力容器用锰硅碳钢板A302/A302M-97e1 压力容器用锰钼和锰钼镍合金钢板A304-96 有末端淬火淬透性要求的合金钢棒材的技术规范A307-00 抗拉强度为60000psi的碳素钢螺栓和螺柱的技术规范A308-99 经热浸处理镀有铅锡合金的薄板材的技术规范A309-94a(1999) 用三点试验法测定长镀锌薄钢板镀层的重量成分的试验方法A311/A311M-95(2000) 有机械性能要求的消除应力的冷拉碳素钢棒A312/A312M-00c 无缝和焊接奥氏体不锈钢管A313/A313M-98 不锈钢弹簧丝技术规范A314-97 锻造用不锈及耐热钢坯及钢棒规格A31-00 钢铆钉及铆钉和压力容器用棒材A319-71(2001) 高温无压部件用灰铁铸件A320/A320M-01 低温用合金钢螺栓材料规格A321-90(1995)e1 经淬火和回火的碳素钢棒A322-91(1996) 合金钢棒材.级别A323-93(2000) 硼铁规格A324-73(2000) 钛铁合金A325-00 经热处理最小抗拉强度为120/105ksi的钢结构螺栓A325M-00 结构钢连接件用高强度螺栓(米制)A327-91(1997) 铸铁冲击试验方法A327M-91(1997) 铸铁冲击试验方法(米制)A328/A328M-00 薄钢板桩A331-95(2000) 冷加工合金钢棒A333/A333M-99 低温用无缝与焊接钢管规格A334/A334M-99 低温设备用无缝与焊接碳素和合金钢管A335/A335M-01 高温用无缝铁素体合金钢管A336/A336M-99e1 压力与高温部件用合金钢锻件规格A338-84(1998) 铁路,船舶和其他重型装备在温度达到650华氏度(345摄氏度)时使用的可锻铸铁法兰,管件和阀门零件ASTM钢管标准2A34/A34M-96 磁性材料的抽样和采购试验的标准惯例A340-99a 有关磁性试验用符号和定义的术语A341/A341M-00 用直流磁导计和冲击试验法测定材料的直流磁性能的试验方法A342/A342M-99 磁铁材料导磁率的试验方法A343-97 在电力频率下用瓦特计-安培计-伏特计法(100-1000赫兹)和25 厘米艾普斯亭(EPSTEIN) 机架测定材料的交流电磁性能的试验方法A345-98 磁设备用平轧电炉钢A348/A348M-00 用瓦特计--安培计--伏特计法(100-10000赫兹)和25厘米艾普斯亭框测定材料的交流磁性能的试验方法A350/A350M-00c 要求进行缺口韧性试验的管道部件用碳素钢与低合金钢锻件技术规范A351/A351M-00 容压零件用奥氏体及奥氏体铁素体铸铁的技术规范A352/A352M-93(1998) 低温受压零件用铁素体和马氏体钢铸件规格A353/A353M-93(1999) 压力容器用经二次正火及回火处理的含9%镍的合金钢板A354-01 淬火与回火合金钢螺栓,双头螺栓及其他外螺纹紧固件规格A355-89(2000) 渗氮用合金钢棒A356/A356M-98e1 蒸汽轮机用厚壁碳素钢、低合金钢和不锈钢铸件A358/A358M-01 高温用电熔焊奥氏体铬镍合金钢管A36/A36M-00a 碳素结构钢技术规范A363-98 地面架空线用镀锌钢丝绳A367-60(1999) 铸铁的激冷试验方法A368-95a(2000) 不锈钢和耐热钢丝绳的标准A369/A369M-01 高温用锻制和镗孔碳素钢管和铁素体合金钢管A370-97a 钢制品机械测试的标准试验方法和定义A372/A372M-99 薄壁压力容器用碳素钢及合金钢锻件A376/A376M-01 高温中心站用无缝奥氏钢管A377-99 球墨铸铁压力管规范索引A380-99e1 不锈钢零件、设备和系统的清洗和除垢A381-96 高压输送用金属弧焊钢管A384-76(1996) 防止钢组件热浸镀锌时翘曲和扭曲用安全保护A385-00 提供高质量镀锌覆层(热浸)A3-01 低、中、高碳素钢鱼尾(连接)板A387/A387M-99e1 压力容器用铬钼合金钢板A388/A388M-95(2000)e1 重型钢锻件超声波检测A389/A389M-93(1998) 适合高温受压部件用经特殊热处理的合金钢铸件规格A390-95(2001) 饲养家禽用镀锌钢丝栏栅网(六角形和直线形)A391/A391M-98 80号合金钢链条A392-96 镀锌钢丝链环栏栅网A394-00 传动塔架用镀锌和裸露钢螺栓A395/A395M-99 高温用铁素体球墨铸铁受压铸件A400-69(2000) 钢棒的成分及机械性能选择指南A401/A401M-98 铬硅合金钢丝A403/A403M-00b 锻制奥氏体不锈钢管配件A407-93(1998) 盘簧用冷拉钢丝A409/A409M-01 腐蚀场所或高温下使用的焊接大口径奥氏体钢管A411-98 镀锌低碳钢铠装线A413/A413M-00 碳素钢链A414/A414M-00 压力容器用碳素薄钢板A416/A416M-99 预应力混凝土用无涂层七股钢铰线A417-93(1998) 之字型、方型和正弦型装垫弹簧元件用冷拉钢丝A418-99 涡轮机及发电机钢转子锻件的超声波检查方法A420/A420M-00b 低温下用锻制碳素钢和合金钢管配件A421/A421M-98a 预应力混凝土用无涂层消除应力钢丝的技术规范A423/A423M-95(2000) 无缝和电焊低合金钢管A424-00 搪瓷用钢薄板A426-92(1997) 高温用离心铸造的铁素体合金钢管A427-74(1996)e1 冷轧和热轧用锻制合金钢辊A428/A428M-01 钢铁制品上铝覆层重量的测试方法A434-90a(2000) 热轧与冷精轧经回火及淬火的合金钢棒A435/A435M-90(2001) 钢板的直射束纵向超声波检验A436-84(1997)e1 奥氏体灰口铁铸件A437/A437M-01 高温用经特殊处理的涡轮型合金钢螺栓材料A438-80(1997) 灰铸铁横向弯曲试验A439-83(1999) 奥氏体可锻铸铁铸件A447/A447M-93(1998) 高温用镍铬铁合金钢铸件(25-12级)A449-00 经淬火和回火的钢螺栓和螺柱A450/A450M-96a 碳素钢管、铁素体合金钢管及奥氏体合金钢管A451-93(1997) 高温用离心铸造的奥氏体钢管A453/A453M-00 具有同奥氏体钢相类似的膨胀系数、屈服强度为50-120Ksi(345-827MPa)的耐高温螺栓材料A455/A455M-90(2001) 压力容器用高强度碳锰钢板A456/A456M-99 大型曲轴锻件的磁粉检查A459-97 镀锌平轧扁钢铠装带A460-94(1999) 包铜钢丝绳标准A463/A463M-00 热浸镀铝薄钢板A466/A466M-98 非焊接碳素钢链A467/A467M-98 机器链和盘旋链A469-94a(1999) 用于发电机转子的真空处理钢锻件A470-01 涡轮机转子和轴用经真空处理的碳素钢和合金锻件A471-94(1999) 涡轮转子转盘和转轮用真空处理合金钢锻件技术规范A472-98 蒸汽涡轮机轴及转子锻件的热稳定性的试验方法A473-01 不锈和耐热钢锻件A474-98 包铝钢丝绳标准A475-98 镀锌钢丝绳A476/A476M-00 造纸厂干燥辊用球墨可锻铸铁件A478-97 铬镍不锈钢和耐热钢制编织钢丝A479/A479M-00 锅炉及压力容器用不锈钢和耐热钢棒与型材A47/A47M-99 铁素体可锻铁铸件A480/A480M-01 扁平轧制耐热不锈钢厚板材、薄板材和带材通用要求A481-94(2000) 金属铬A482-93(2000) 铬铁硅A483-64(2000) 硅锰合金A484/A484M-00 不锈及耐热锻钢棒,钢坯及锻件的规格A485-00 高淬透性耐磨轴承钢的技术规范A487/A487M-93(1998) 受压钢铸件A488/A488M-01 钢铸件焊接规程和工作人员的合格鉴定A48-94ae1 灰铁铸件A489-00 碳素钢吊耳A490-00 最小拉伸强度为150千磅/平方英寸热处理钢结构螺栓A491-96 镀铝钢链环栏栅结构A492-95(2000) 耐热不锈钢丝绳A493-95(2000) 冷镦和冷锻不锈钢和耐热钢丝A494/A494M-00 镍和镍合金铸件A495-94(2000) 硅钙合金钢技术规范A496-97ae1 钢筋混凝土用变形钢丝A497-99e1 钢筋混凝土用焊接变形钢丝网A498-98 无缝与焊接碳素钢,铁素体钢与奥氏体钢制有整体散热片的换热器钢管A49-01 经热处理的碳素钢鱼尾(连接)板,微合金鱼尾板及锻制碳素钢异型鱼尾板A499-89(1997)e1 轧制丁字钢轨用的碳素钢棒材及型材的技术规范A500-01 圆形与异型焊接与无缝碳素钢结构管A501-01 热成型焊接与无缝碳素钢结构管A503/A503M-01 锻制大型曲轴的超声波检验A504-93(1999) 锻制碳素钢轮A505-00 热轧和冷轧合金钢薄板和带材A506-00 正规质量及优质结构的热轧和冷轧合金钢薄板与带材A507-00 优质拉拔,热轧和冷轧合金钢薄板与带材A508/A508M-95(1999) 压力容器用经回火和淬火真空处理的碳素钢与合金钢锻件A510-00 碳素钢盘条和粗圆钢丝通用要求A510M-00 碳素钢盘条和粗圆钢丝(米制)A511-96 无缝不锈钢机械管A512-96 冷拉对缝焊碳素钢机械管A513-00 电阻焊碳素钢与合金钢机械钢管A514/A514M-00a 焊接用经回火与淬火的高屈服强度合金钢板A515/A515M-92(1997) 中温及高温压力容器用碳素钢板A516/A516M-90(2001) 中温及低温压力容器用碳素钢板A517/A517M-93(1999) 压力容器用经回火与淬火的高强度合金钢板A518/A518M-99 耐蚀高硅铁铸件A519-96 无缝碳素钢与合金钢机械管A521-96 一般工业用闭式模钢锻件A522/A522M-95b(2000) 低温用锻制或轧制含镍8%和9%的合金钢法兰,配件,阀门和零件规格A523-96 高压管型电缆线路用平端无缝与电阻焊钢管A524-96 常温和低温用无缝碳素钢管A529/A529M-00 高强度碳锰结构钢质量A530/A530M-99e1 特种碳素钢和合金钢管A531/A531M-91(1996) 涡轮发电机钢定位环的超声波检验A532/A532M-93a(1999)e1 耐磨铸铁A533/A533M-93(1999) 压力容器用经回火和淬火的锰钼及锰钼镍合金钢板A534-94 用于耐摩擦轴承的渗碳钢A536-84(1999)e1 球墨铸铁件A537/A537M-95(2000) 压力容器用经热处理的碳锰硅钢板A53/A53M-01 无镀层热浸的、镀锌的、焊接的及无缝钢管的技术规范A539-99 天然气和燃料油管线用电阻焊钢盘管A540/A540M-00 特殊用途的合金钢螺栓材料A541/A541M-95(1999) 压力容器部件用经淬火和回火的碳素钢及合金钢锻件A542/A542M-99e1 压力容器用经回火和淬火的铬钼、铬钼钒及铬钼钒钛硼合金钢板A543/A543M-93(1999) 压力容器用经回火和淬火的镍铬钼合金钢板A550-78(2000) 铌铁合金A551-94(1999) 钢轮箍A553/A553M-95(2000) 压力容器用经回火和淬火的含8%及9%镍的合金钢板A554-98e1 焊接的无缝钢机械管A555/A555M-97 耐热不锈钢丝和盘条的通用要求A556/A556M-96 无缝冷拉碳素钢给水加热器管A560/A560M-93(1998) 铬镍合金铸件A561-71(1999) 工具钢棒的宏观刻蚀试验A562/A562M-90(2001) 搪玻璃或扩散金属镀层的压力容器用锰钛合金碳素钢板A563-00 碳合金钢螺母ASTM钢管标准3A563M-00 碳素钢及合金钢螺母技术规范(米制)A564/A564M-01 热轧及冷精轧时效硬化处理过的不锈钢棒材和型材技术规范A565-97 高温用马氏体不锈钢棒,锻件和锻制坯规格A568/A568M-00b 热轧及冷轧高强度低合金碳素钢薄板A571-84(1997) 适用于低温压力容器零件的奥氏体球墨铸铁件A571M-84(1997) 适用于低温压力容器零件的奥氏体球墨铸铁件(米制)A572/A572M-00a 高强度低合金钴钒结构钢技术规范A573/A573M-00a 增强韧性的结构碳素钢板A574-00 合金钢内六角螺钉A574M-00 合金钢内六角螺钉(米制)A575-96 商品级碳素钢棒(M级)A576-90b(2000) 特级热轧碳素钢棒A577/A577M-90(2001) 钢板的超声角波束检验A578/A578M-96(2001) 特殊设备用的普通钢板和包覆钢板的直波束超声探伤检验A579-99 超高强度合金钢锻件A580/A580M-98 耐热不锈钢丝A581/A581M-95b(2000) 高速切削用耐热不锈钢丝和盘条A582/A582M-95b(2000) 热轧或冷精轧的高速切削不锈及耐热钢棒A583-93(1999) 铁路用铸钢轮A584-97 镀铝钢丝编织栅栏网A585-97 镀铝刺钢丝A586-98 镀锌平行和螺旋形钢丝绳A587-96 化学工业用电阻焊低碳钢管A588/A588M-00a 高强度低合金结构钢4英寸(100mm)厚屈服点最小为50ksi(345MPa) A589-96 水井用无缝和焊接碳素钢管A591/A591M-98 薄镀层电解镀锌薄钢板A592/A592M-89(1999) 压力容器用经回火和淬火的高强度低合金钢锻制附件和零件A595-98 结构用圆锥形低碳钢管A596/A596M-95(1999) 用环形试验法和冲击法测定材料的直流磁性能的试验方法A597-87(1999) 铸造工具钢A598-92(1997) 磁放大器磁芯的磁性能测试法A599/A599M-99 锡制品,电解镀锡的冷滚轧薄板规范A6/A6M-01 轧制结构钢板材、型材和薄板桩通用技术要求A600-92a(1999) 高速工具钢A601-96(2000) 电解金属锰A602-94(1998) 汽车用可锻铸铁件A603-98 镀锌结构钢丝绳A604-93(1998) 自耗电极再溶化钢棒与钢坯的宏观腐蚀试验方法A606-98 改进防大气腐蚀性的热轧和冷轧高强度低合金钢薄板和带材A608-91a(1998) 高温受压离心铸造的铁铬镍高合金钢管A609/A609M-91(1997) 碳素钢,低合金钢和马氏体不锈钢铸件的超声波检测A610-79(2000) 尺寸测量用铁合金的取样和试验A611-00 冷轧优质碳素结构钢薄板A612/A612M-00 中温和低温压力容器用高强度碳素钢板A615/A615M-01a 钢筋混凝土配筋用变形和光面坯钢筋A618-01 热成型焊接与无缝高强度低合金结构钢管系A623-00 锡轧制产品A623M-00 镀锡薄钢板轧制品通用要求(米制)A624/A624M-98 锡辊轧制品.单压延电解马口铁A625/625M-98 一次轧制原钢板(未镀)和镀锡薄钢板轧制产品技术规范A626/A626M-98 二次压延电解镀锡厚钢板轧制品技术规范A626/A626M-98 锡轧制品.二次压延的电解镀锡板(米制)A627-95 安全设备用均质不易加工的钢棒A629-88(1994)e1 安全设备用不易加工的扁钢棒和型材A630-98 热浸电解镀锡板镀锡层重量测定的方法A632-01 通用无缝和焊接奥氏体不锈钢管(小直径)A633/A633M-00a 正火的高强度低合金结构钢A635/A635M-00 热轧碳素钢薄板,带材和重型粗盘条规格A636-76(2000) 氧化镍烧结块A638/A638M-00 高温用沉积硬化铁基超级合金棒,锻件及锻坯料A640-97 8字型缆吊架用镀锌钢丝绳A641/A641M-98 镀锌(电镀)碳素钢丝技术规范A644-98 铁铸件的相关术语A645/A645M-99a 压力容器用经特殊热处理的5%镍合金钢板A646-95(1999) 飞机及航空器锻件用优质合金钢大方坯及坯段A648-95(2000) 预应力混凝土管用冷拉钢丝A649/A649M-99 波纹纸机械用锻制钢辊规格A650/A650M-98 二次压延的锡轧黑板材A653/A653M-00 热浸处理的镀锌铁合金或镀锌合金薄钢板的标准规范A656/A656M-00a 具有改良可模锻性的高强度低合金热轧结构钢板A657/A657M-98a 一次和二次压延电解镀铬黑钢板轧制品技术规范A65-01 钢轨道钉A659/A659M-97 商业级热轧碳素钢薄板和带材(最大含碳量为0.16%-0.25%) A660-96 高温用离心铸造碳素钢管A662/A662M-99 中温和低温压力容器用锰碳钢板规格A663/A663M-89(2000) 商品级碳素钢棒的机械特性A664-99 在ASTM规范中对电工钢和层压钢级别的识别A666-00 退火或冷加工的奥氏体不锈钢薄板、带材、中厚板和扁棒A667/A667M-87(1998) 离心铸造的双金属(灰口及白口铸铁)圆柱体A668/A668M-96e1 一般工业用碳素钢和合金钢锻件A66-01 钢质螺旋道钉A671-96 常温和较低温用电熔焊钢管A672-96 中温高压用电熔焊钢管A673/A673M-95 结构钢冲击试验的取样程序A674-00 水或其它液体用球墨铸铁管的聚乙烯包装A675/A675M-90a(2000) 专用热轧碳素钢棒的机械特性A677/A677M-99 全处理型无取向电工钢A678/A678M-00a 结构用经回火和淬火的高强度低合金碳素钢板规格A679/A679M-00 硬(冷)拉高抗拉强度钢丝A67-00 热加工低碳钢和高碳钢垫板技术规范A681-94(1999) 合金工具钢A682/A682M-00 弹簧用冷轧高碳钢带材A683/A683M-99 半处理型无取向电工钢A684/A684M-99 冷轧高碳钢带材A686-92(1999) 碳素工具钢A688/A688M-01 焊接的奥氏体不锈钢给水加热器管A689-97 弹簧用碳素钢及合金钢棒A690/A690M-00a 在海洋环境中使用的高强度低合金工字形钢桩和薄板桩规格A691-98 高温下高压装置用电熔焊碳素钢和合金钢管A693-93(1999) 沉淀硬化耐热不锈钢板、薄板和带材A694/A694M-00 高压传输设备用碳素钢及合金钢管法兰、配件、阀门及零件用锻件A695-90b(1995)e1 流体动力设备专用热锻碳素钢棒A696-90a(2000) 压力管道部件专用热锻或冷精轧碳素钢棒A697-98 用伏特计、安培计和瓦特计法测定迭层铁芯样品的交流磁特性的试验方法A698/A698M-92(1997)e1 在弱交流磁场中磁屏蔽效率的试验方法A700-99e1 钢制品国内装运的包装、标记和装载方法A701-96(2000) 硅锰铁A702-89(2000) 热锻钢栅栏柱和组件A703/A703M-01 受压部件用钢铸件A704/A704M-96 混凝土加筋用焊接普通钢棒或杆的光面钢筋或钢筋网A705/A705M-95(2000) 时效硬化的不锈和耐热钢锻件A706/A706M-01 混凝土配筋用变形低合金光面无节钢筋A707/A707M-00a 低温设备用锻制碳素钢和合金钢法兰A709/A709M-01 桥梁用结构钢A710/A710M-00 低碳时效硬化的镍铜铬钼铌合金钢A711-92(1996)e1 钢锻件坯料A712-97 软磁性合金电阻率的测试方法A713-93(1998) 热处理部件用高碳弹簧钢丝A714-99 高强度低合金焊接钢管和无缝钢管A716-99 球墨铸铁涵洞管A717/A717M-95 单片样品表面绝缘电阻率的试验方法A719-97 磁性材料的叠装系数的试验方法A720-97 无取向电工钢延展性的试验方法A721-97 取向的电工钢的延展性试验方法A722/A722M-98 预应力混凝土用无涂覆的高强度钢筋A723/A723M-94(1999) 高强度压力元件用合金钢锻件A724/A724M-99 叠层焊接的压力容器用经淬火及回火的碳素钢压力容器板A726-00 半成品型冷轧磁性迭片级钢A727/A727M-00 具有固定切口韧性的管道部件用碳素钢锻件A729-93(1999) 货物运输及电气铁路用热处理合金钢轴A730-93(1999) 铁路用碳素钢及合金钢锻件A732/A732M-98 一般设备用熔模铸造碳素低合金钢及高强度加温钴合金钢铸件A733-99 焊接及无缝碳素钢和奥氏体不锈钢管接头A734/A734M-87a(1997) 经淬火和回火的合金钢与高强度低合金钢压力容器板A735/A735M-99 中温和低温用低碳锰钼钶合金钢压力容器板A736/A736M-88(2000) 低碳时效硬化的镍铜铬钼铌和镍铜锰钼铌合金钢压力容器板A737/A737M-99 高强度低合金钢压力容器板A738/A738M-00 中温和低温设备用经热处理的碳锰硅钢压力容器板A739-90a(2000) 升温或/和加压部件用热轧合金钢棒A740-98 钢丝网(编织或焊接电镀钢丝网)A741-98 公路护栏用镀锌钢丝绳和配件A742/A742M-98 波纹钢管用预涂聚合物和金属涂覆钢薄板A743/A743M-98ae1 一般用耐腐蚀铬铁及镍铬铁合金铸件A744/A744M-00 严酷条件下使用的耐腐蚀镍铬铁合金铸件A745/A745M-94(1999) 奥氏体钢锻件的超声波检验A746-99 排污管用球墨铸铁A747/A747M-99 沉淀硬化不锈钢铸件A748/A748M-87(1998) 压力容器用静态铸造的激冷白口铁-灰口铁双金属轧辊A749/A749M-97 热轧碳素钢和高强度低合金钢带材通用要求A74-98 铸铁污水管及配件的技术规范A750-77(1994)e1 阻挡区域用钢制通风格栅A751-96 钢制品化学分析的实验方法、操作和术语A752-93(1998) 合金钢条和粗圆钢丝A752M-93(1998) 合金钢条和粗圆钢丝(米制)A753-97 镍铁软磁合金A754/A754M-96(2000) X射线荧光涂层厚度的试验方法A755/A755M-99 外露建筑材料用热浸涂覆和用卷涂工艺预涂的钢薄板A756-94(2001) 耐磨不锈轴承钢A757/A757M-00 低温下承压设备及其它设备用铁素体和马氏体钢铸件A758/A758M-00 具有改进的切口韧性的对缝焊锻制碳素钢管配件A759-00 起重机用碳钢轨条A760/A760M-01 下水道和排水沟用金属涂覆的波纹钢管A761/A761M-98 现场栓接管、管拱和拱用波纹镀锌结构钢板A762/A762M-00 下水道和排水沟用预涂聚合物波纹钢管A763-93(1999)e1 铁素体不锈钢晶间腐蚀敏感性检测A764-95(2001) 机械弹簧用冷拉镀锌和按成品尺寸镀锌的碳素钢丝A765/A765M-98a 具有强制性韧性要求的碳素钢及低合金钢压力容器部件锻件A767/A767M-00b 钢筋混凝土用镀锌钢筋A768-95 涡轮机转子及轴用经真空处理的含铬12%的合金钢锻件A769/A769M-00 电阻焊钢结构型材A770/A770M-86(2001) 专用钢板通过厚度测量进行的抗拉试验A771/A771M-95(2001) 增殖反应堆堆芯部件用奥氏体不锈钢管A772/A772M-00 正弦电流用材料的交流磁导率的试验方法A773/A773M-96 用带直流电子的磁滞曲线记录仪的(B-H)回路法测量材料的磁性能的标准试验方法A774/A774M-00 低温和中温一般腐蚀情况下用的焊接锻制奥氏体不锈钢配件A775/A775M-01 涂环氧树脂的钢筋钢棒A778-01 焊接未退火的奥氏体不锈钢管形制品A779/A779M-00 预应力混凝土用应力消除未涂覆的密实七股钢丝绞绳A780-01 热浸镀锌层的损坏及无覆层区域的检修A781/A781M-00 一般工业用一般要求的钢和合金铸件A782/A782M-90(2001) 经淬火和回火的锰铬钼硅锆合金钢压力容器板A786/A786M-00b 轧制钢楼板A787-01 电阻焊金属涂覆碳素钢机械配管A788-98a 钢锻件A789/A789M-01 普通设备用无缝与焊接铁素体/奥氏体不锈钢管A790/A790M-01 无缝与焊接铁素体/奥氏体不锈钢管A792/A792M-99 热浸工艺法处理的55%铝-锌合金涂覆钢板A793-96 不锈钢轧制楼板A794-97 商品级冷轧碳素钢薄板(最高含碳量为0.16%-0.25%)A795-00 防火用黑色及热浸镀锌的焊接和无缝钢管A796/A796M-00 雨水管和卫生污水管及其它地下埋设管道用波纹钢管、管托架及拱形架结构设计惯例A798/A798M-01 下水道及其它类似用途用工厂制波纹钢管的安装A799/A799M-92(1997) 估算不锈钢铸件铁素体含量用仪表的校准A800/A800M-01 奥氏体合金钢铸件中铁素体含量的估算A801/A801M-99 铁钴高磁性饱和合金A802/A802M-95(2001) 钢铸件外观检验的表面验收标准A803/A803M-01 焊接铁素体不锈钢给水加热器管A804/A804M-99 在电力频率下用薄钢板型试样对材料交流磁特性的测试方法A805-93(1998) 冷轧碳素钢扁平线A807/A807M-97 下水道及其它类似用途用波纹结构钢涂覆管的安装A808/A808M-00a 具有改进的切口韧性的结构级高强度低合金碳钢、锰钢、铌钢和钒钢A809-98 镀铝碳素钢丝A810-00 镀锌钢管用绕网A811-97 粉末冶金技术制造的软磁铁零件A813/A813M-01 单或双焊接奥氏体不锈钢管A814/A814M-01 冷加工焊接奥氏体不锈钢管A815/A815M-01 锻制铁素体、铁素体/奥氏体和马氏体不锈钢管配件A817-00 链接栅栏网用金属涂覆钢丝A818-91(2001) 镀铜碳素钢丝A820-96 纤维增强混凝土用钢纤维A821/A821M-99 预应力混凝土容器用经回火的冷拉钢丝A822-90(2000) 液压系统设备用冷拉碳素无缝钢管A823-99 静铸永久铸模灰铸件A824-01 链接栅栏用Marcelled拉力金属涂覆钢丝A826/A826M-95(2001) 增殖反应堆堆芯部件用奥氏体和铁素体不锈钢管A827/A827M-93a(1998) 锻造及类似用途用的碳素钢板技术规范A829/A829M-00 结构性合金钢板A82-97ae1 钢筋混凝土用无节钢丝A830/A830M-00 按照化学成分要求提供的优质碳素钢板技术规范A831/A831M-95(2000) 核心部件用不锈耐热钢棒,坯段及锻件规格A832/A832M-99e1 压力容器板用铬钼钒及铬钼钒钛硼合金钢A833-84(1996) 用比较硬度测试仪测量金属材料的压痕硬性A834-95(2001) 一般工业用铁铸件的一般要求A835-84(2000) 铁合金与合金添加剂的筛分粒度A836/A836M-95b(2001) 搪瓷管和压力容器设备用钛稳定碳素体钢锻件A837-91(1996)e1 渗碳用合金钢锻件A838/A838M-97 继电器用易切削铁素体不锈软磁合金技术规范A839/A839M-96 软磁用途的磷铁粉末冶金制造的零件技术规范A840/A840M-00 全处理的磁性夹层钢A841/A841M-01 压力容器用温度机械控制工艺加工的钢板A842-85(1997) 高密度石墨铸铁A844/A844M-93(1999) 压力容器用直接淬火加工的含镍9%的合金钢板A845-85(2000) 用于脱氧与合金钢的钛碎片A846-85(2000) 用于脱氧与合金钢的铝碎片A847-99a 具有增强耐大气腐蚀性能的冷成型焊接与无缝高强度低合金结构管A848/A848M-96 低碳磁铁A849-00 波纹钢排水管和污水管用后涂覆铺面和衬里材料A851-96 高频感应焊接的未退火奥氏体钢冷凝器管A852/A852M-00a 最小屈服强度为70Ksi(485MPa),厚度为4英寸(100mm)的经淬火和回火的低合金结构钢板ASTM钢管标准4A853-93(1998) 普通碳素钢丝A854/A854M-98 镀锌高强度钢栅栏和格架用光滑金属线A855/A855M-98 锌-5%铝-铈合金涂覆的钢丝绳A856/A856M-98 锌-5%铝-铈合金涂覆的碳素钢丝A857/A857M-00a 冷成形轻型薄钢板桩A858/A858M-00 低温和腐蚀情况下用热处理碳素钢配件A859/A859M-95(1999) 压力容器部件用时效硬化镍铜铬钼钶低碳合金钢锻件A860/A860M-00 锻制高强度低合金钢的高强度对缝焊接配件A861-94e1 高硅铁管和配件A862/A862M-98 波纹钢污水管和排水管沥清(柏油)涂层的应用。
钢号对照
GB A53 (SA53)Gr A 10B 20A106 (SA106)A 10B 20A335 (SA335) P1 1Cr-0.5Mo 12 CrMoP12 1Cr-0.5Mo 15 CrMo P22 2.25Cr-1Mo 15 CrMoA53 (SA53)A 10.20B 10.20Bessemer 10.20A250 T1 (SA250)C0.5Mo12 CrMoA312 (SA312)TP3040Cr19Ni9TP304L 00Cr19Ni11TP31025Cr20Ni TP3160Cr17Ni12Mo2TP316L 0Cr17Ni14Mo2TP3170Cr19Ni13Mo3TP3210Cr18Ni11TiTP3470Cr18Ni11Nb无缝不锈钢管 SS SEAMLESS PIPEASTM (ASME) 和 GB 钢号对照表ASTM (ASME)碳钢、低碳合金钢无缝钢管 CS LA SEMLESS PIPE碳素焊接钢管 CS WELDED PIPE锅炉、过热器和换热器用无缝不锈钢管A213 (SA213)TP3040Cr19Ni9TP304L00Cr19Ni11TP31025Cr20NiTP3160Cr17Ni12Mo2TP316L0Cr17Ni14Mo2TP3170Cr19Ni13Mo3TP3210Cr18Ni11TiTP3470Cr18Ni11Nb不锈钢焊接钢管A240 (SA240)3211Cr18Ni9Ti A480 (SA480)3040Cr18Ni9304L00Cr18Ni93160Cr17Ni12Mo2316L00Cr17Ni12Mo2317L00Cr18Ni13Mo3不锈钢板A240 (SA240)3021Cr18Ni93040Cr18Ni9304L00Cr19Ni113160Cr17Ni12Mo2316L00Cr17Ni12Mo2316Ti00Cr18Ni13Mo2Ti3211Cr18Ni9Ti3471Cr18Ni10Ti4051Cr134090Cr134101Cr13410S0Cr13430D1Cr17A480 (SA480)4090Cr13410S0Cr134300Cr17S420102Cr134203Cr132013011Cr18Ni93021Cr18Ni93040Cr18Ni9304LN00Cr19Ni10304L00Cr19Ni113160Cr17Ni12Mo2316L00Cr17Ni12Mo2316Ti00Cr18Ni13Mo2Ti3211Cr18Ni9Ti3471Cr18Ni10Ti4051Cr1343101Cr13410S0Cr13430D1Cr17碳素钢板A202A (SA202A)Q235 使用温度〈300 o CA204A (SA204)C0.5Mo15CrMoRA285 (SA285)A Q235 使用温度〈300 o CB Q235-BC 20RA229 (AS229)A16MnA (SA )B国内无此钢种A387 (SA387)B国内无此钢种A515 (SA515)5520G、20R6020R、20G6520R7016MR A516 (SA516)GR 7016MnR锻件和铸造件 FORGED AND CASTA105 (SA105) 1C-Si20锻件与A 106 配用C-Si25A181 (SA181) 1C-Si20通用管道用碳钢锻件C-Si25,35 A182 (SA182)F11国内无此钢种高温用轧制锻件管件F3040Cr19Ni9F304L00Cr18Ni9F316L0Cr17Ni12Mo2F3211Cr18Ni9TiF3471Cr18Ni9TiF310国内无此钢种(0Cr25Ni20)A216 (SA216)WCA20CrMn (C-Si-Mn-Cr)焊接用碳钢铸件WCB30CrMn (C-Si-Mn-Cr)WCC25CrMn (C-Si-Mn-Cr)A217 (SA217)WCA15CrMn2SiMoWCA15CrMoC12可用的高Cr合金钢锻件A336 (SA336)F1 20F61Cr13A351 (SA315)CA151Cr13CF800Cr18Ni9CF8M0Cr17Ni12Mo2或其他高合金钢CF C00Cr18Ni9A372(SA372) V Type E35CrMo螺栓 BOLTSA193 (SA193) B7 Cr-Mo一般 35、重要 30CrMoB16 Cr-Mo-V35B8 Type 304一般 35、重要 30CrMoAB8T Type 3211Cr18Ni9TiB8T Type 3160Cr18Ni12Mo2A325 (SA325)一般 35、重要 40MnB螺母 NUTSA194 (SA194)4358 Type 3040Cr19Ni98T Type 3211Cr19Ni9Ti8M Type 3160Cr18Ni12Mo2A325 (SA325)一般 35、重要 30CrMo1,材料代用尽量按化学成分和机械性能对照比较而定,不能按此办法的,只能按习惯用法定。
ASTM美国标准
用直流磁导计和冲击试验法测定材料的直流磁 性能的试验方法
磁铁材料导磁率的试验方法 在电力频率下用瓦特计-安培计-伏特计法 (100-1000赫兹)和25 厘米艾普斯亭(EPSTEIN)
磁设备用平轧电炉钢 用瓦特计--安培计--伏特计法(100-10000赫 兹)和25厘米艾普斯亭框测定材料的交流磁性 要求进行缺口韧性试验的管道部件用碳素钢与 低合金钢锻件技术规范 容压零件用奥氏体及奥氏体铁素体铸铁的技术 规范
铁素体可锻铁铸件
48 A48/A48M-00 49 A49-01 53 A53/A53M-01
灰铁铸件 经热处理的碳素钢鱼尾(连接)板,微合金鱼 尾板及锻制碳素钢异型鱼尾板 无镀层热浸的、镀锌的、焊接的及无缝钢管的 技术规范
65 A65-01
钢轨道钉
66 A66-01
钢质螺旋道钉
67 A67-00
热加工低碳钢和高碳钢垫板技术规范
氧化钼制品 结构用高强度钢铸件 钢铁制金属构件上镀锌层(热浸) 汽车用灰铁铸件 不锈钢和耐热铬镍钢板、薄板及带材 不锈钢和耐热铬钢板、薄板及带材 电阻焊接碳素钢钢管及碳锰钢锅炉和过热器管 的技术规范 热交换器和冷凝器用无缝冷拉低碳钢管 普通锻制碳素钢管的规格 高温设备用锻制或轧制的合金钢管法兰、锻制 管件、阀门及零件
341 A341/A341M-00 342 A342/A342M-99 343 A343-97 345 A345-98 348 A348/A348M-00 350 A350/A350M-02a 351 A351/A351M-00
A352/A352M352 93(1998)
A353/A353M353 93(1999) 354 A354-01 355 A355-89(2000) 356 A356/A356M-98e1 358 A358/A358M-01 363 A363-98 367 A367-60(1999) 368 A368-95a(2000) 369 A369/A369M-02 370 A370-02e1 372 A372/A372M-99 376 A376/A376M-02 377 A377-99 380 A380-99e1 381 A381-96(2001) 384 A384-76(1996) 385 A385-01 387 A387/A387M-99e1 388 A388/A388M-00
ASTM标准对照
A179/A179M-90a(2001) 热交换器和冷凝器用无缝冷拉低碳钢管 A181/A181M-01 A182/A182M-02 A183-03 A184/A184M-01 A185-02 A192/A192M-02 A193/A193M-04b A194/A194M-04a A197/A197M-00 A202/A202M-03 A203/A203M-97(2003) A204/A204M-03 A209/A209M-03 A210/A210M-02 A213/A213M-04 A214/A214M-96(2001) A216/A216M-93(2003) A217/A217M-02 A220/A220M-99 A225/A225M-03 A227/A227M-99 A228/A228M-02 A229/A229M-99 A230/A230M-99 A231/A231M-96(2002) A232/A232M-99 A234/A234M-04 A239-95(2004) A240/A240M-04ae1 A242/A242M-04 A247-67(1998) A249/A249M-04 A250/A250M-04 A252-98(2002) A254-97(2002) A255-02 A262-03 A263-03 A264-03 A265-03 A266/A266270-03a A275/A275M-98(2003) A276-04
Standard Specification for Structural Steel for Ships Standard Specification for Ferromolybdenum Standard Specification for Pipe, Steel, Electric-Fusion (Arc)-Welded (Sizes NPS 16 and Over) Standard Specification for Electric-Resistance-Welded Steel Pipe Standard Specification for Electric-Fusion (Arc)-Welded Steel Pipe (NPS 4 and Over) Standard Practice for Safeguarding Against Embrittlement of Hot-Dip Galvanized Structural Steel Products and Procedure for Detecting Embrittlement Specification for Ferrotungsten Standard Specification for Molybdenum Oxide Products Standard Specification for Steel Castings, High Strength, for Structural Purposes Standard Specification for Zinc Coating (Hot-Dip) on Iron and Steel Hardware Standard Specification for Automotive Gray Iron Castings Standard Specification for Stainless and Heat-Resisting Chromium-Nickel Steel Plate, Sheet, and Strip Standard Specification for Stainless and Heat-Resisting Chromium Steel Plate, Sheet, and Strip Standard Specification for Electric-Resistance-Welded Carbon Steel and Carbon-Manganese Steel Boiler and Superheater Tubes
astm标准钢板
ASTM(美国材料和试验协会)是一个制定和发布各种材料和产品标准的组织。
在钢板方面,ASTM制定了许多相关的标准,以帮助指导钢板的制造、测试和使用。
以下是几种常见的ASTM钢板标准:
1. ASTM A36/A36M:这是一种用于一般结构用途的碳素钢板标准。
它覆盖了成分要求、机械性能、尺寸容差、试验方法等方面。
2. ASTM A572/A572M:这是一种高强度低合金钢(HSLA)板的标准。
它用于建筑、桥梁、船舶等需要高强度和耐候性的应用。
3. ASTM A516/A516M:这是一种用于压力容器的碳素钢板标准。
它涵盖了常规和低温的应用要求,例如制造锅炉、储罐和压力容器等。
4. ASTM A283/A283M:这是一种用于低中等强度碳素钢板的标准。
它通常用于建筑、桥梁和其他一般结构方面。
5. ASTM A537/A537M:这是一种用于低温压力容器应用的热
轧合金钢板标准。
它具有高强度、耐候性和抗裂性,适用于低温环境下的使用。
需要注意的是,具体使用哪种ASTM标准的钢板取决于应用领域和要求。
在选择钢板时,应根据具体的技术规范和工程要求,选择符合要求的ASTM标准和相关级别的钢板。
ASTM A960 A960M -2014 普通要求的锻制钢管管件的标准规范(英文版).jbws3845
Designation:A960/A960M−14aStandard Specification forCommon Requirements for Wrought Steel Piping Fittings1 This standard is issued under thefixed designation A960/A960M;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.Scope*1.1This specification covers a group of common require-ments that shall apply to wrought steel pipingfittings covered in any of the following individual product specifications or any other ASTM specification that invokes this specification or portions thereof:Title of Specification ASTMDesignation Specification for Piping Fittings of WroughtCarbon Steel and Alloy Steel for Moderate andElevated TemperaturesA234/A234MSpecification for Wrought Austenitic StainlessSteel Piping FittingsA403/A403MSpecification for Piping Fittings of Wrought CarbonSteel and Alloy Steel for Low-Temperature ServiceA420/A420MSpecification for Butt-Welding,Wrought-CarbonSteel,Piping Fittings with Improved Notch ToughnessA758/A758MSpecification for As-Welded Wrought AusteniticStainless Steel Fittings for General CorrosiveService at Low and Moderate TemperaturesA774/A774MSpecification for Wrought Ferritic,Ferritic/Austenitic,and Martensitic Stainless Steel Piping FittingsA815/A815MSpecification for Heat-Treated Carbon SteelFittings for Low-Temperature and Corrosive ServiceA858/A858MSpecification for Wrought High-StrengthLow-Alloy Steel Butt-Welded FittingsA860/A860M 1.2In case of conflict between a requirement of the indi-vidual product specification and a requirement of this general requirement specification,the requirements of the individual product specification shall prevail over those of this specifica-tion.1.3By mutual agreement between the purchaser and the supplier,additional requirements may be specified(See4.1.8). The acceptance of any such additional requirements shall be dependent on negotiations with the supplier and must be included in the order as agreed upon by the purchaser and supplier.1.4The values stated in either SI units or inch-pound units are to be regarded separately as standard.Within the text and the tables,the SI units are shown in brackets.The values stated in each system may not be exact equivalents;therefore each system shall be used independently of the bining values from the two systems may result in non-conformance with the specification.The inch-pound units shall apply unless the“M”designation[SI]of the product specification is specified in the order.2.Referenced Documents2.1ASTM Standards:2A29/A29M Specification for General Requirements for Steel Bars,Carbon and Alloy,Hot-WroughtA234/A234M Specification for Piping Fittings of Wrought Carbon Steel and Alloy Steel for Moderate and High Temperature ServiceA262Practices for Detecting Susceptibility to Intergranular Attack in Austenitic Stainless SteelsA370Test Methods and Definitions for Mechanical Testing of Steel ProductsA388/A388M Practice for Ultrasonic Examination of Steel ForgingsA403/A403M Specification for Wrought Austenitic Stainless Steel Piping FittingsA420/A420M Specification for Piping Fittings of Wrought Carbon Steel and Alloy Steel for Low-Temperature Ser-viceA700Guide for Packaging,Marking,and Loading Methods for Steel Products for ShipmentA751Test Methods,Practices,and Terminology for Chemi-cal Analysis of Steel ProductsA758/A758M Specification for Wrought-Carbon Steel Butt-Welding Piping Fittings with Improved Notch Toughness A763Practices for Detecting Susceptibility to Intergranular Attack in Ferritic Stainless SteelsA774/A774M Specification for As-Welded Wrought Auste-nitic Stainless Steel Fittings for General Corrosive Service at Low and Moderate TemperaturesA815/A815M Specification for Wrought Ferritic,Ferritic/ Austenitic,and Martensitic Stainless Steel Piping Fittings A858/A858M Specification for Heat-Treated Carbon Steel1This specification is under the jurisdiction of ASTM Committee A01on Steel, Stainless Steel and Related Alloys and is the direct responsibility of Subcommittee A01.22on Steel Forgings and Wrought Fittings for Piping Applications and BoltingMaterials for Piping and Special Purpose Applications.Current edition approved Nov.1,2014.Published November2014.Originally approved st previous edition approved in2014as A960/A960M–14. DOI:10.1520/A0960_A0960M-14A.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.*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 StatesFittings for Low-Temperature and Corrosive ServiceA860/A860M Specification for Wrought High-Strength Fer-ritic Steel Butt-Welding FittingsA941Terminology Relating to Steel,Stainless Steel,Related Alloys,and FerroalloysA967Specification for Chemical Passivation Treatments for Stainless Steel PartsA1058Test Methods for Mechanical Testing of Steel Products—MetricE165Practice for Liquid Penetrant Examination for General IndustryE213Practice for Ultrasonic Testing of Metal Pipe and TubingE709Guide for Magnetic Particle TestingE1916Guide for Identification of Mixed Lots of Metals 2.2Manufacturer’s Standardization Society Standards:3 MSS-SP-25The Standard Marking System of Valves, Fittings,Flanges and UnionsMSS-SP-43Standard Practice for Light Weight Stainless Steel Butt-Welding FittingsMSS-SP-75Specification for High Test Wrought Butt-Welding FittingsMSS-SP-79Socket Welding Reducer InsertsMSS-SP-83Class3000Steel Pipe Unions,Socket Welding and ThreadedMSS-SP-95Swage(d)Nipples and Bull PlugsMSS-SP-97Integrally Reinforced Forged Branch Outlet Fittings—Socket Welding,Threaded and Buttwelding Ends2.3American Society of Nondestructive Testing:4SNT-TC-1A Recommended Practice for Nondestructive Testing Personnel Qualification and Certification2.4ASME Standards:5B16.9Steel Butt-Welding FittingsB16.11Forged Steel Fittings,Socket Welding and Threaded Boiler and Pressure Vessel Code Section IX3.Terminology3.1Definitions of Terms Specific to This Standard:3.1.1bar—a solid section that is long in relationship to its cross sectional dimensions,with a relatively constant cross section throughout its length.(See Specification A29/A29M for definitions relating to the production of hot wrought and coldfinished bars.)3.1.2certifying organization—the company or association responsible for the conformance of,the marking of,and the certification of the product to the specification requirements.3.1.3fitting—a component for non-bolted joints used in piping systems and pressure vessels.3.1.4flange—a component for bolted joints used in piping systems and pressure vessels.3.1.5forging—the product of a substantially compressive hot or cold plastic working operation that consolidates the material and produces the required shape.3.1.6Discussion—The plastic working must be performed by a forging machine,such as a hammer,press,or ring rolling machine and must deform the material to produce an essen-tially wrought structure throughout the material cross section.3.2Definitions—For definitions of other terms used in this specification,refer to Terminology A941.4.Ordering Information4.1It is the purchaser’s responsibility to specify in the purchase order all ordering information necessary to purchase the needed material.Examples of such information include but are not limited to the following:4.1.1Quantity,4.1.2Description offitting and nominal dimensions(stan-dard or special),4.1.3Steel composition by grade and class designation, 4.1.4Construction,seamless or welded(unless seamless or welded construction is specified by the purchaser,either may be furnished at the option of the supplier),4.1.5Specification number(including the year/date of issue),4.1.6Choice of testing track from the options listed in Test Methods A1058when material is ordered to an M suffix(SI units)product standard.If the choice of test track is not specified in the order,then the default ASTM track shall be used as noted in Test Methods A1058.4.1.7Supplementary requirements,and4.1.8Additional requirements.5.Material5.1The material forfittings shall consist of forgings,bars, plates and seamless or welded tubular products.5.2The steel shall conform to the chemical requirements of the individual product specification and may be made from any process.5.3Ferritic steels shall be fully killed.5.4If secondary melting is employed,the heat shall be defined as all ingots remelted from a primary heat.6.Manufacture6.1Forging or shaping operations may be performed by any of the methods included in the individual product specification.6.2Hollow cylindrically shaped parts up to and including NPS4may be machined from bar or seamless tubular material provided the axial length of the part is approximately parallel to the axial length of thefitting.Elbows,return bends,tees and header tees shall not be machined directly from bar stock. 6.3Fittings,after forming at an elevated temperature,shall be cooled to a temperature below the critical range under suitable conditions to prevent injury by cooling too rapidly.3Available from Manufacturers Standardization Society of the Valve and Fittings Industry(MSS),127Park St.,NE,Vienna,V A22180-4602,.4Available from American Society for Nondestructive Testing(ASNT),P.O.Box 28518,1711Arlingate Ln.,Columbus,OH43228-0518,.5Available from American Society of Mechanical Engineers(ASME),ASME International Headquarters,Two Park Ave.,New York,NY10016-5990,http://.6.4All classes offittings shall have the welders,welding operators,and welding procedures qualified under the provi-sion of Section IX of the ASME Boiler and Pressure Vessel Code except that welds from the original pipe manufacturer made without the addition offiller metal do not require such qualification.7.Heat Treatment7.1Fittings requiring heat treatment shall be treated as specified in the individual product specification using the following procedures:7.1.1Full Annealing—Fittings shall be uniformly reheated to a temperature above the transformation range and,after holding for a sufficient time at this temperature,cooled slowly to a temperature below the transformation range.7.1.2Solution Annealing—Fittings shall be heated to a temperature that causes the carbides to go into solution and then quenched in water or rapidly cooled by other means to prevent reprecipitation.7.1.3Isothermal Annealing—Isothermal annealing shall consist of austenitizing a ferrous alloy and then cooling to and holding within the range of temperature at which the austenite transforms to a relatively soft ferrite-carbide aggregate.7.1.4Normalizing—Fittings shall be uniformly reheated to a temperature above the transformation range and subsequently cooled in air at room temperature.7.1.5Tempering and Post-Weld Heat Treatment—Fittings shall be reheated to the prescribed temperature below the transformation range,held at temperature for the greater of1⁄2 h or1h/in.[25.4mm]of thickness at the thickest section and cooled in still air.7.1.6Stress Relieving—Fittings shall be uniformly heated to the selected stress relieving temperature.The temperature shall not vary from the selected temperature by more than625°F [614°C].7.1.7Quench and Temper—Fittings shall be fully austen-itized and immediately quenched in a suitable liquid medium. The quenchedfittings shall be reheated to a minimum tempera-ture of1100°F[590°C]and cooled in still air.8.Chemical Requirements8.1Chemical Analysis—Samples for chemical analysis and methods of analysis shall be in accordance with Test Methods, Practices and Terminology A751for Chemical Analysis of Steel Products.8.2Heat Analysis—An analysis of each heat of steel shall be made by the manufacturer to determine the percentages of those elements specified in the individual product specification. If secondary melting processes are employed,the heat analysis shall be obtained from one remelted ingot of each primary melt.The chemical analysis thus determined shall conform to the requirements of the individual product specification.Note that the product analysis(check analysis)tolerances are not to be applied to the heat analysis requirements.8.2.1For steels ordered under product specifications refer-encing this specification of general requirements,the steel shall not contain an unspecified element,other than nitrogen for stainless steels,for the ordered grade to the extent that the steel conforms to the requirements of another grade for which that element is a specified element having a required minimum content.For this requirement,a grade is defined as an alloy described individually and identified by its own UNS or grade designation in a table of chemical requirements within any specification listed within the scope as being covered by this specification.8.3Product Analysis—If a product analysis is performed it shall be in accordance with Test Methods,Practices,and Terminology A751.The chemical composition thus determined shall conform to limits of the product specification,within the permissible variations of Table1or Table2of this specification,as appropriate for the grade being supplied. TABLE1Product Analysis Tolerances for Low Alloy and CarbonSteels AElementsLimit,or Maximum ofSpecified Range,%Permissible VariationsOver Maximum Limit orUnder Minimum Limit,% Carbon to0.010,incl0.002over0.010to0.030,incl0.005over0.030to0.20,incl0.01over0.20to0.80,incl0.02Manganese to1.00,incl0.03over1.00to3.00,incl0.04Phosphorus to0.040,incl0.005over0.040to0.20,incl0.010Sulfur to0.040,incl0.005over0.040to0.20,incl0.010Silicon to1.00,incl0.02over1.00to3.00,incl0.10Nickel to1.00,incl0.03over1.00to5.000.07over5.00to10.00,incl0.10over10.00to20.00,incl0.15Chromium0.90and under0.03over0.90to2.10,incl0.05over2.10to4.00,incl0.07over4.00to10.00,incl0.10Molybdenum0.20and under0.01over0.20to0.60,incl0.03over0.60to2.00,incl0.05Vanadium0.10and under0.01over0.10to0.25,incl0.02over0.25to0.50,incl0.03minimum value specified,under minimumlimit only0.01Columbium(Niobium)to1.50,incl0.05Titanium to1.00,incl0.05Aluminum to0.15,incl–0.005+0.01over0.15to0.50,incl0.05over0.50to0.80,incl0.07Lead B0.15to0.35,incl0.03Copper to0.50,incl0.03over0.50to1.00,incl0.05over1.00to3.00,incl0.10Nitrogen to0.02,incl0.005over0.02to0.19,incl0.01Tungsten to0.50,incl0.02over0.50to1.00,incl0.03over1.00to2.00,incl0.05over2.00to4.00,incl0.06Zirconium to0.01,incl0.005Boron to0.01,incl0.0005A Chrome content less than4.00.B Product analysis tolerance for lead applies both over and under to a specified range of0.15to0.35%.9.Mechanical Requirements9.1Method of Mechanical Test—All tests shall be con-ducted in accordance with Test Methods and Definitions A370if the inch-pound units are specified or Test Methods A1058if the M suffix (SI Units)standard is specified.9.2The test specimen shall represent all material from the same heat and heat treatment load whose maximum thick-nesses do not exceed the thickness of the test specimen or blank by more than 1⁄4in.[6mm].9.3One tension test at room temperature shall be made in accordance with 9.2from each heat in each heat treatment load.9.3.1If heat treatment is performed in either a continuous or batch type furnace controlled within 625°F [614°C]of the required heat treatment temperature and equipped with record-ing pyrometers so that complete records of heat treatment are available,and if the same heat treating cycles are used on the material represented by the tension test,then one tension test from each heat shall be required,instead of one tension test from each heat in each heat treatment load in accordance with 9.2.9.4Retest—When a retest is permitted by the product specification,it shall be performed on twice the number of representative specimens that were originally nonconforming.When any retest specimen does not conform to the product specification requirements for the characteristic in question,the lot represented by that specimen shall be rejected or reworked in accordance with Section 14.9.4.1If the results of the tension test do not conform to the requirements specified in the product specification,retests are permitted as outlined in the test methods specified herein.If the results of any tension test specimen are less than specified because a flaw becomes evident in the test specimen during testing,a retest shall be allowed provided that the defect is not attributable to ruptures,cracks,or flakes in the steel.9.4.2If the average impact energy value meets the product specification requirements,but one energy value is below the specified minimum value for individual specimens,a retest is permitted.The retest shall be conducted in accordance with the test methods specified herein.9.5For the purpose of determining conformance to the product specification requirements,specimens shall be ob-tained from a finished product,or from production material that is in the same condition of working and heat treatment as the production material.10.Hardness Requirements10.1The part shall conform to the hardness requirements prescribed in the product specification.10.2Sampling for hardness testing shall conform to the product specification.11.Tensile Requirements11.1The part shall conform to the tensile property require-ments prescribed in the product specification.11.2Sampling for tensile testing shall conform to the product specification.11.3When the dimensions of the material to be tested will permit,the tension test specimens shall be machined to the form and dimensions of the standard 2-in.gauge length tension test specimens described in Test Methods and Definitions A370if inch-pound units are specified or the standard 62.5mm gauge length tension test specimens described in the applicable track of Test Methods A1058if SI units are specified.11.3.1In the case of small sections,which will not permit taking the standard test specimen described in 11.3,the subsizeTABLE 2Product Analysis Tolerances for Higher Alloy andStainless Steels AElement Upper Limit of Maximum of Specified Range,%Tolerances Over the Maximum (Upper Limit)or Under the Minimum (Lower Limit)Carbonto 0.010,incl0.002over 0.010to 0.030,incl 0.005over 0.030to 0.20,incl 0.01over 0.20to 0.80,incl 0.02Manganeseto 1.00,incl0.03over 1.00to 3.00,incl 0.04over 3.00to 6.00,incl 0.05over 6.00to 10.00,incl 0.06Phosphorus to 0.040,incl0.005over 0.040to 0.20,incl 0.010Sulfurto 0.040,incl0.005over 0.040to 0.20,incl 0.010over 0.20to 0.50,incl 0.020Siliconto 1.00,incl0.05over 1.00to 3.00,incl 0.10over 3.00to 7.00,incl 0.15Chromiumover 4.00to 10.00,incl 0.10over 10.00to 15.00,incl 0.15over 15.00to 20.00,incl 0.20over 20.00to 30.00,incl 0.25Nickelto 1.00,incl0.03over 1.00to 5.00,incl 0.07over 5.00to 10.00,incl 0.10over 10.00to 20.00,incl 0.15over 20.00to 30.00,incl 0.20over 30.00to 40.00,incl 0.25Molybdenumto 0.20,incl0.01over 0.20to 0.60,incl 0.03over 0.60to 2.00,incl 0.05over 2.00to 7.00,incl 0.10Titanium to 1.00,incl 0.05Columbium to 1.50,incl 0.05Tantalum to 0.10,incl 0.02Copperto 0.50,incl0.03over 0.50to 1.00,incl 0.05over 1.00to 3.00,incl 0.10Aluminumto 0.15,incl−0.005+0.01over 0.15to 0.50,incl 0.05Nitrogento 0.02,incl0.005over 0.02to 0.19,incl 0.01over 0.19to 0.25,incl 0.02over 0.25to 0.35,incl 0.03over 0.35to 0.45,incl 0.04over 0.450.05Vanadium to 0.10,incl0.01over 0.10to 0.25,incl 0.02Cerium to 0.20,incl 0.01Tungstento 0.50,incl0.02over 0.50–1.00,incl 0.03over 1.00–2.00,incl 0.05over 2.00–4.00,incl 0.06Cobaltto 0.20,incl0.01AChromecontent 4.00or greater.round or strip specimen shall be machined as described in the test methods being used.The tension test specimen shall be as large as feasible.12.Impact Requirements12.1The part shall conform to the impact requirements prescribed in the product specification.12.2Sampling for impact testing shall conform to the product specification.13.Hydrostatic Test Requirements13.1Parts manufactured under this specification shall be capable of passing a hydrostatic test compatible with the rating of the specified matching pipe of equivalent material.Such a test shall be conducted only when specified in the purchase order or when the hydrostatic test Supplementary Requirement is invoked by the purchaser.14.Rework14.1When one or more representative test specimens or retest specimens do not conform to the requirements specified in the product specification for the tested characteristic,the lot of material represented by the test specimen may be reworked according to the following requirements.14.1.1If previously tested in the untreated condition,the product may be reworked by heat treatment,and subsequently retested,in accordance with the product specification.14.1.2If previously tested in the heat treated condition,the product may be reworked by reheat treatment,and subse-quently retested,in accordance with the product specification.15.Surface Finish,Appearance,and CorrosionProtection15.1The parts shall conform to the dimensions,tolerances andfinish as specified in the purchaser’s order and to the individual ASTM product specification.15.2Thefinished parts shall be cleaned to remove all scale and processing compounds prior to thefinal surface examina-tion.The cleaning process shall not injure the surfacefinish, material properties,or the metallurgical structure.15.2.1The surfacefinish shall allow the detection of imper-fections that can be disclosed by visual inspection.15.2.2The cleaned parts shall be protected to prevent recontamination.15.2.2.1Exterior and interior surfaces of carbon,low,and intermediate alloy steelfittings shall have a corrosion protec-tive coating.Oil,grease,machine cutting oils,or corrosion inhibitors alone shall not be considered as meeting the require-ments of a corrosion protective coating.15.2.2.2Stainless steel and nickel alloyfittings need not be coated.Unmachined surfaces of stainless steelfittings shall be passivated by exposure to an acid bath,or electropolished. 15.2.3Protective coatings on parts subsequently subjected to socket welds or butt welds shall be suitable for welding without removal of the coating.Threadedfittings shall be capable of installation without the removal of the coating. 15.2.4When specified in the purchase order,parts may be furnished in the as-formed condition.15.3Fittings supplied under this specification shall be examined visually.Selected typical surface discontinuities shall be explored for depth.Unless otherwise specified in the purchase order,the following shall apply.15.3.1Fittings conforming to ASME B16.9,MSS-SP-43, and MSS-SP-95shall be free of surface discontinuities that penetrate more than5%of the specified nominal wall thickness,except as defined in15.3.3and15.3.4.Fittings conforming to ASME B16.11,MSS-SP-79,MSS-SP-83,and MSS-SP-97shall be free of surface discontinuities that pen-etrate more than5%of the actual wall thickness at the point of interest,or1⁄16in.[1.6mm],whichever is less,except as defined in15.3.4.Fittings conforming to MSS-SP-75shall be free of surface discontinuities that penetrate more than61⁄2% of the specified nominal wall thickness.15.3.2Surface discontinuities deeper than5%of the speci-fied nominal or actual wall thickness as applicable,except as defined in15.3.3and15.3.4,shall be removed by the manu-facturer by machining or grinding to sound metal,and the repaired areas shall blend smoothly into the contour of the finishedfitting.Surface discontinuities onfittings conforming to MSS-SP-75shall be removed or repaired in accordance with the requirements of that standard.Except forfittings conform-ing to MSS-SP-75,the wall thickness at all points shall be at least the specified minimum wall thickness,or871⁄2%of the specified nominal wall thickness and the diameters shall be within the limits specified in the applicable dimensional standards.15.3.3Surface checks(fish scale)deeper than1⁄64in.[0.4 mm]shall be removed.15.3.4Mechanical marks deeper than1⁄16in.[1.6mm]shall be removed.15.3.5When the removal of a surface discontinuity reduces the wall thickness below the specified minimum wall thickness at any point,thefitting shall be subject to rejection or to repair as provided in Section16,or in accordance with MSS-SP-75 forfittings conforming to that standard.16.Repair by Welding16.1The purchaser may require the supplier to submit proposed weld repairs for approval by invoking the appropriate Supplementary Requirement in the purchase order.16.2If the purchaser does not require prior approval of the proposed weld repairs,these repairs shall be permitted at the discretion of the supplier.All weld repairs shall be performed in accordance with the following limitations and requirements.16.2.1The welding procedure,welders and operators shall be qualified in accordance with Section IX of the ASME Boiler and Pressure Vessel Code.The composition of the weld deposit shall be compatible with the composition of the material being welded.16.2.2Defects shall be completely removed prior to weld-ing by machining,chipping or grinding to sound metal. Removal of these defects shall be verified by magnetic particle examination in accordance with Guide E709or liquid penetrant inspection in accordance with Test Method E165,as appli-cable.16.2.3After repair welding,the welded area shall be ma-chined or ground smooth to the original contour and shall be completely free of defects as verified by magnetic particle examination in accordance with Guide E709or liquid penetrant inspection in accordance with Test Method E165,as appli-cable.16.2.4Repair welding shall not exceed10%of the external surface area of the part,or331⁄3%of the wall thickness of the finished product,or3⁄8in.[10mm]deep maximum at the location of the repair,without prior approval of the purchaser.16.2.5Weld repaired material or parts,or both,shall be marked“RW”when required by the product specification. 16.3The weld repair shall conform to the additional requirements,if any,invoked in the product specification. 17.Inspection17.1The supplier shall provide the purchaser’s inspector with all reasonable facilities necessary to satisfy him that the material is being produced and furnished in accordance with this specification and the applicable product specification.Site inspection by the purchaser shall not interfere unnecessarily with the supplier’s operations.18.Rejection and Rehearing18.1Samples representing material rejected by the pur-chaser shall be preserved until disposition of the claim has been agreed to between the supplier and the purchaser.19.Marking19.1Each piece shall be legibly marked in a position as not to injure the usefulness of thefitting with the product specifi-cation number,grade or marking symbol,class,certifying organization’s name or symbol,the heat number or heat identification,size,and schedule number or wall thickness,if applicable.It is not required to mark the product with the specification year and date of issue.When size or shape does not permit the inclusion of all the required marking as described,see19.2.Manufacturer can also choose the use of tags,box labels,etc.for identification when per piece marking is not practical due to size or shape.19.2The Standard Marking System of Valves,Fittings, Flanges and Unions MSS-SP-25shall be followed except the word“steel”shall not be substituted for the specification grade.19.3Product marking shall conform to the additional requirements,if any,invoked in the product specification or purchase order.20.Certification20.1A test report and certificate of compliance are required.20.2Test reports shall include the year/date of issue,the results of all tests required by this specification,the product specification,and the purchaser order,and shall be traceable to the part represented.20.3A single document containing the test report informa-tion and certificate of compliance information may be used.20.4A certificate printed from or used in electronic data interchange(EDI)transmission shall be regarded as having the same validity as a counterpart printed in the certifier’s facility. The content of the EDI transmitted document shall conform to any existing EDI agreement between the purchaser and the supplier.20.5Not withstanding the absence of a signature,the organization submitting either a printed certificate or an EDI transmitted certificate is responsible for the content of the report.21.Packaging,Marking and Loading for Shipment21.1Packaging,marking,and loading for shipment shall be in accordance with Practices A700.22.Keywords22.1austenitic stainless steel;corrosive service applica-tions;ferritic/austenitic stainless steel;ferritic stainless steel; high strength low alloy steel;martensitic stainless steel;piping applications;pressure containing parts;pressure vessel service; stainless steelfittings;temperature service applications-elevated;temperature service applications-low;temperature service applications-moderateSUPPLEMENTARY REQUIREMENTSThese requirements shall not be considered unless specified in the order,in which event,the supplementary requirements specified shall be made at the place of manufacture,unless otherwise agreed upon,at the purchaser’s expense.The test specified shall be witnessed by the purchaser’s inspector before shipment of material,if so specified in the order.The rationale for beginning the section numbering with S50is to eliminate the possibility of confusion with supplementary requirements existing in individual product specifications.S50.Product Analysis(See Note S50.1)S50.1A product analysis shall be made from each heat of base metal and,if of welded construction,from each lot number of welding material of thefittings offered for delivery. The analysis shall conform to the requirements specified in Section8.S51.Tension Test(See Note S50.1)S51.1One tension test shall be made on onefitting or representative test piece(See Note S50.2)per lot(See Note S50.3)offittings.If thefittings are of welded construction,the tension specimen shall include the weld and shall be prepared so that the weld is at the midlength location of thespecimen.。
美标ASTM标准的中文对照大全
ASTM A6/A6M-2004 a结构用轧制钢板、型钢、板桩和棒钢通用要求ASTM A36/A36M2004碳结构钢标准规范ASTM A106-2002a高温用无缝碳钢公称管规范ASTM A143-2003热侵镀锌结构钢制品防脆化的标准实施规程和催化探测方法ASTM A179/A179M-1990a(R2001)热交换器和冷凝器用无缝冷拉低碳钢管标准规范ASTM A192-2002高压设备用无缝碳钢锅炉管标准规范ASTM A209/A209M-2003锅炉和过热器用无缝碳钼合金钢管标准规范ASTM A210/A210M-2003锅炉和过热器用无缝中碳钢管技术条件ASTM A213/A213Mb-2004锅炉过热器和换热器用无缝铁素体和奥氏体合金钢传热管技术条件ASTM A234/A234M-2004中、高温用锻制碳钢和合金钢管道配件ASTM A252-98(R2002)焊接钢和无缝钢管桩的标准规范ASTM A262-2002a探测奥氏体不锈钢晶间腐蚀敏感度的标准实施规范ASTM A269/A269-2004通用无缝和焊接奥氏体不锈钢管标准规范ASTM A333/A333M-2004低温设备用无缝和焊接钢管的规范标准ASTM A334/A334M-2004低温设备用无缝和焊接碳素和合金钢管的标准规范ASTM A335-2003高温设备用无缝铁素体合金钢管标准规范ASTM A370/A370M-2003a钢制品力学性能试验方法和定义标准ASTM A387/A387M-2003压力容器用铬钼合金钢板的标准规范ASTM A403/A403M-2004锻制奥氏体不锈钢管配件的标准规范ASTM A450/A450M-2004碳素钢管、铁素体合金钢管及奥氏体合金钢管一般要求的标准规范ASTM A500-2003a圆形与异型冷成型焊接与无缝碳素钢结构管标准规范ASTM A515-2003中温及高温压力容器用碳素钢板的标准规范ASTM A516-2004a中温及低温压力容器用碳素钢板的标准规范ASTM A530-2003特种碳素钢和合金钢管一般要求的标准规范ASTM A615/A615M-2004a混凝土配筋用异形钢筋和无节钢胚棒标准规范ASTM A703/A703M-2004标准技术条件—承压件钢铸件通用要求ASTM A781/A781M-2004a铸件、钢和合金的标准规范及通用工业的一般性要求ASTM A788/A788M-2004a标准技术条件—钢锻件通用要求ASTM B209/B209M -2004铝和铝合金薄板和中厚板标准规范ASTM E6-2003金属材料布氏硬度的标准测试方法ASTM E18-2003金属材料洛氏硬度和洛氏表面硬度的标准测试方法ASTM E29-2002使用有效数字确定试验数据与规范符合性作法ASTM E8-2004金属材料拉伸试验的标准测试方法ASTM E94-2004放射性检查的标准指南ASTM E125-1963(R2003)铁铸件的磁粉检验用标准参考照片ASTM E164-2003焊件的超声接触检验的标准操作规程ASTM E208-1995a(R2000)用导向落锤试验测定铁素体钢无塑性转变温度的标准试验方法ASTM E213-2004金属管超声检验方法ASTM F36-1995测定垫片材料压缩率及回弹率的标准试验方法ASTM F37-1995垫片材料密封性的标准试验方法ASTM F38-1995垫片材料的蠕变松弛的标准试验方法ASTM F112-1995色覆垫片密封性能的标准试验方法ASTM F146-1995a垫片材料耐液体标准试验方法ASTM F1311-1995(R2001)大口径组装式碳钢法兰标准规范ASTM G1-2003腐蚀试样的制备、清洁处理和评定用标准实施规范ASTM G36-73(R1981) 参考资料标准实用规程:在沸的氯化镁溶液中进行的应力腐蚀裂纹试验ASTM G46-1976(R1986) 参考资料标准实用规程:麻点腐蚀的检验和评定ASTM G48-1976(R1980) 参考资料使用三氯化铁溶液做不锈钢及其合金的耐麻点腐蚀和抗裂口腐蚀性试验的标准方法ASTM标准中译本丛书(一)碳钢、铸铁、不锈钢及合金钢材料标准规范(含18个标准)ASTM A105/A105M-2002管道部件用碳钢锻件ASTM A126-1995(R2001)阀门、法兰和管道附件用灰铁铸件ASTM A181/A181M-2001通用管路用碳钢锻件标准规范ASTM A193/A193M-2001高温用合金钢和不锈钢螺栓材料ASTM A194/A194M-2001 a高温用合金钢和不锈钢螺栓材料ASTM A216/A216M-2001 a高温用可熔焊碳钢铸件标准规范ASTM A217/A217M-2002高温承压件用马氏体不锈钢和合金钢铸件标准规范ASTM A276-2002 a不锈钢棒材和型材ASTM A278/A278M-2001高温不超过650°F(350℃)的承压部件用灰铸铁件ASTM A320/A320M-2002低温用合金钢栓接材料ASTM A350/A350M-2002要求冲击韧性试验的管件用碳钢及低合金钢锻件标准规范ASTM A351/A351M-2000承压件用奥氏体、奥氏体-铁素体(双相)钢铸件规范ASTM A352/A352M-1993(R1998)低温承压件用铁素体和马氏体钢铸件标准规范ASTM A395/A395M-1999高温用铁素体球墨铸铁承压铸件ASTM A439-1983(R1999)奥氏体球墨铸铁件ASTM A536-1984(R1999)球墨铸铁件ASTM A694/A694M-2000高温输送用管法兰、管件、阀门及零件用碳钢和合金钢锻件标准规范ASTM A965/A965M-2002高温高压部件用奥氏体钢锻件ASTM标准中译本丛书(二)法兰、管件、阀门及部件(含9个标准)ASTM A182/A182M-2002高温用锻制或轧制合金钢法兰、锻制管件、阀门和部件ASTM A961-2002管道用钢制法兰、锻制管件、阀门和零件的通用要求标准规范ASTM B462-2002高温耐腐蚀用锻制或轧制的UNS NO6030、UNS NO6022、UNS NO6200、UNS NO8020、UNS NO8024、UNS NO8026、UNS NO8367、UNS NO10276、UNS N10665、UNS N10675和UNS R20033合金管法兰、锻制管件、阀门和零件标准规范ASTM F885-1984公称管径为NPS 1/4~2的青铜截止阀外形尺寸标准规范ASTM F992-1986(R2001)阀门铭牌标准规范ASTM F993-1986(R2001)阀门锁紧装置标准规范ASTM F1030-1986(R1998)阀门操作装置的选择准则ASTM F1098-1987(R1998)公称管径有NPS2~24的蝶阀外形尺寸标准规范。
美标金属材质标准
美标金属材质标准美国标准协会(ASTM)是美国最著名的标准制定机构,其制定的金属材质标准广泛应用于美国和其他国家的制造业。
以下是一些常见的美标金属材质标准和它们的简要介绍:1. ASTM A36/A36M:这是一种用于一般用途的碳素结构钢标准。
它规定了钢的化学成分、机械性能和尺寸规格等。
2. ASTM A516/A516M:这是一种用于压力容器和工业设备的碳素钢板材标准。
它涵盖了各种厚度、尺寸和强度等级的钢板。
3. ASTM A572/A572M:这是一种高强度低合金结构钢标准,适用于桥梁、重型机械、石油钻探等高强度结构。
4. ASTM A606/A606M:这是一种用于耐候钢的标准,适用于建筑、桥梁、输电塔等结构。
5. ASTM A709/A709M:这是一种用于高性能结构钢的标准,适用于桥梁、海洋结构、高层建筑等。
6. ASTM A999/A999M:这是一种用于优质碳素结构钢的标准,适用于要求较高强度和韧性的应用。
7. ASTM A106/A106M:这是一种用于输送流体用的无缝碳钢管的标准。
8. ASTM A53/A53M:这是一种用于输送流体用的焊接碳钢管的标准。
9. ASTM A179/A179M:这是一种用于冷轧无缝钢管的标准。
10. ASTM A193/A193M:这是一种用于螺纹连接件的不锈钢和合金钢的标准。
以上仅是美国标准协会制定的部分金属材质标准,实际应用中,还有许多其他标准和规格适用于不同类型的金属材料。
在选择和使用金属材料时,需要根据具体应用和要求来选择合适的标准。
需要注意的是,我国也有自己的金属材质标准,如GB/T 1591-2018《低合金高强度结构钢》、GB/T 20875-2007《不锈钢和耐热钢钢号和化学成分》等,这些标准规定了金属材料的牌号、化学成分、机械性能和应用范围等。
在实际工程中,需要根据具体情况选择合适的国内或国际标准。
总之,美标金属材质标准涵盖了各种类型的金属材料,包括碳钢、合金钢、不锈钢等,这些标准由美国标准协会(ASTM)制定,并在美国和其他国家的制造业中广泛应用。
astm a622 对应的宝钢材质标准
astm a622 对应的宝钢材质标准
ASTM A622是一种特定的材料标准,主要应用于铁路和轮船的制造。
至于它与宝钢(中国大型钢铁企业)的对应关系,需要具体分析。
首先,ASTM(美国材料与试验协会)制定的标准主要针对美国和其他英语国家的材料和产品。
而宝钢主要遵循中国的钢铁材料标准,如GB(中国国
家标准)或者YB(冶金部标准)。
其次,ASTM A622主要规定了高强度、耐腐蚀的钢材的技术条件,适用于制造铁路和船舶部件。
而宝钢作为中国最大的钢铁企业,其产品种类繁多,包括各种类型的钢材,如结构钢、管线钢、不锈钢等,应用于各种工程领域。
如果要将ASTM A622与宝钢的某一具体型号对应,需要进行详细的材料性能和化学成分比对。
因此,很难给出具体的对应关系。
如果需要更多信息,建议直接查阅相关标准或者咨询材料科学专家。
无缝管标准
无缝管标准1. 引言无缝钢管是一种常见的金属管材,在工业和建筑领域广泛应用。
与焊接管相比,无缝管具有更高的强度、更好的耐腐蚀性和更高的耐压能力。
无缝管的生产标准在不同国家和地区有所差异,本文将介绍一些常见的无缝管标准。
2. ASTM无缝管标准美国材料与试验协会(ASTM)是一个非营利组织,负责制定和发布材料和产品的标准。
ASTM无缝管标准被广泛应用于美国和其他许多国家。
以下是一些常见的ASTM无缝管标准:•ASTM A53/A53M:钢制无缝和焊接黑色和热浸镀锌钢管适用于压力设备。
•ASTM A106/A106M:钢制无缝碳钢管适用于高温和高压服务。
•ASTM A333/A333M:无缝和焊接的低温钢管适用于低温服务。
•ASTM A335/A335M:合金钢管适用于高温服务。
•ASTM A519/A519M:碳和合金钢机械管适用于机械应用。
•ASTM A312/A312M:无缝、焊接和重工不锈钢管适用于一般腐蚀性环境。
3. DIN无缝管标准德国标准化协会(DIN)是德国的国家标准制定机构。
DIN 无缝管标准在欧洲和其他地区得到广泛采用。
以下是一些常见的DIN无缝管标准:•DIN 17175:钢制无缝管适用于高温和高压服务。
•DIN 1629:非合金钢无缝管适用于传输流体。
•DIN 2391:精密钢管适用于机械和汽车工程。
4. GB无缝管标准国家标准化管理委员会(GB)是中国的国家标准制定机构。
GB无缝管标准是在国内生产和销售无缝管时必须遵守的标准。
以下是一些常见的GB无缝管标准:•GB/T 8162:结构用无缝钢管。
•GB/T 8163:液体输送用无缝钢管。
•GB/T 3087:低中压锅炉管。
5. JIS无缝管标准日本工业标准(JIS)是由日本标准协会制定和发布的一系列标准。
JIS无缝管标准被广泛采用于日本国内以及许多亚洲国家。
以下是一些常见的JIS无缝管标准:•JIS G3454:碳钢管适用于高温服务。
ASTMA美标材质规格大全对照表2
ASTM-A美标材质规格大全对照表-2ASTM A3-01(2006)低、中、高碳素钢(未经热处理的)连接板规格ASTM A302/A302M-03 压力容器用锰钼及锰钼镍合金钢厚板规格ASTM A304-05e2 须符合端部淬火硬度要求的碳钢与合金钢棒材规格ASTM A307-07a 抗拉强度为60000psi的碳素钢螺栓和螺柱的技术规范ASTM A308/A308M-06热浸法镀锡(铅锡合金)薄钢板规格ASTM A309-01(2007) 用三点试验法测定长镀锌薄钢板镀层的重量成分的试验方法ASTM A309-01(被ASTM A309-01(2007)代替) 用三点试验法测定长镀铅锡薄钢板镀层的重量及成份的方法ASTM A31-04e1 钢铆钉及铆钉和压力容器用棒材ASTM A311/A311M-04压力容器用钢铆钉和铆钉用钢棒规格ASTM A312/A312M-06无缝焊接冷加工奥氏体不锈钢管规格ASTM A313/A313M-03 不锈钢弹簧钢丝规格ASTM A314-97(2002) 锻造用不锈及耐热钢坯及钢棒规格ASTM A319-71(2006) 高温无压部件用灰铁铸件ASTM A320/A320M-07 低温用合金钢和不锈钢螺栓材料规格ASTM A322-06(被ASTM A322-07代替) 标准级合金钢棒材规格ASTM A322-07 合金钢棒材.级别ASTM A323-05硼铁合金规格ASTM A324-73(2004)钛铁规格ASTM A325-06(被ASTM A325-07代替)经热处理最小抗拉强度为120/105ksi的热处理钢结构螺栓ASTM A325M-05 经热处理最小抗拉强度为830Mpa的热处理钢结构螺栓ASTM A327-91(2006) 铸铁冲击试验方法ASTM A327M-91(2006) 铸铁冲击试验方法(米制)ASTM A328/A328M-07 钢板桩规格ASTM A333/A333M-05 低温用无缝与焊接钢管规格ASTM A334/A334M-04A低温用无缝与焊接碳素合金钢管钢管规格ASTM A335/A335M-06 高温用无缝铁素体合金钢管规格ASTM A336/A336M-06A(被ASTM A336/A336M-07代替) 压力与高温部件用合金钢锻件规格ASTM A336/A336M-07 压力与高温部件用合金钢锻件规格ASTM A338-84(2004) 铁路,船舶和其他重型装备在温度达到650华氏度(345摄氏度)时使用的可锻铸铁法兰,管件和阀门零件ASTM A34/A34M-06 磁性材料的抽样和采购试验的标准惯例ASTM A340-03a 有关磁性试验用符号和定义的术语ASTM A341/A341M-00(2005) 用直流磁导计和冲击试验法测定材料的直流磁性能的试验方法ASTM A342/A342M-04 磁铁材料导磁率的试验方法ASTM A343/A343M-03在电力频率下用瓦特计-安培计-伏特计法(100-1000赫兹)和25 厘米艾普斯亭(EPSTEIN) 机架测定材料的交流电磁性能的试验方法ASTM A345-04 磁设备用平轧电炉钢ASTM A348/A348M-05用瓦特计--安培计--伏特计法(100-10000赫兹)和25厘米艾普斯亭框测定材料的交流磁性能的试验方法ASTM A350/A350M-04A管道部件用切口韧性试验要求的碳素钢与低合金钢锻件规格ASTM A351/A351M-06 承压零件用奥氏体、奥氏体-铁素体(复合)钢铸件规格ASTM A352/A352M-06低温受压零件用铁素体和马氏体钢铸件规格ASTM A353/A353M-04压力容器用经二次正火及回火处理的含9%镍的合金钢厚板规格ASTM A354-07淬火与回火合金钢螺栓,双头螺栓及其他外螺纹紧固件规格ASTM A355-89(2006)渗氮合金钢棒规格ASTM A356/A356M-05(被ASTM A356/A356M-07代替) 汽轮机用厚壁碳素钢、低合金钢和不锈钢铸件规格ASTM A356/A356M-07 汽轮机用厚壁碳素钢、低合金钢和不锈钢铸件规格ASTM A358/A358M-05高温设备与通用设备用电熔焊奥氏体铬镍不锈钢管规格ASTM A36/A36M-05 结构碳素钢规格ASTM A363-03地面架空线用镀锌钢丝绳规格ASTM A367-60(2005) 铸铁的激冷试验方法ASTM A368-95A(2004) 不锈钢钢丝索规格ASTM A369/A369M-06 高温用锻制和镗加工碳素钢管和铁素体合金钢管规格ASTM A370-07(被ASTM A370-07a代替) 钢产品机械测试的试验方法及定义ASTM A370-07a 钢产品机械测试的试验方法及定义ASTM A372/A372M-03薄壁压力容器用碳素钢及合金钢锻件规格ASTM A376/A376M-06 高温中心站用无缝奥氏体钢管规格ASTM A377-03球墨铸铁压力管规范索引ASTM A380-06 不锈钢零件、设备及系统的清洁、除锈和钝化规程ASTM A381-96(2005)高压传输系统用金属弧焊钢管规格ASTM A384/A384M-02(被ASTM A384/A384M-07代替) 钢制组装件热浸镀锌时防翘曲和变形的规程ASTM A384/A384M-07 钢制组装件热浸镀锌时防翘曲和变形的规程ASTM A385-05 提供高质量镀锌层(热浸)的规程ASTM A387/A387M-06A压力容器用铬钼合金钢厚板规格ASTM A388/A388M-07大型钢锻件超声波检查规程ASTM A389/A389M-03 适合高温受压部件用经特殊热处理的合金钢铸件规格ASTM A390-06 家禽饲养用镀锌钢丝栅栏结构(六角形与直线形)规格ASTM A391/A391M-01 合金钢链条规格ASTM A392-06(被ASTM A392-07代替)镀锌钢丝制链环栅栏结构规格ASTM A392-07根据钢棒成份及机械性能选择钢棒的推荐规程ASTM A394-07传动塔架用镀锌和裸露钢螺栓ASTM A395/A395M-99(2004) 高温用铁素体球墨铸铁受压铸件ASTM A400-69(2006)根据钢棒成份及机械性能选择钢棒的推荐规程ASTM A401/A401M-03铬硅合金钢丝规格ASTM A403/A403M-06(被ASTM A403/A403M-07代替)锻制奥氏体管不锈钢管配件规格ASTM A403/A403M-07锻制奥氏体管不锈钢管配件规格ASTM A407-07冷拉卷绕型弹簧钢丝规格ASTM A407-93(2004)(被ASTM A407-07代替)冷拉卷绕型弹簧钢丝规格ASTM A409/A409M-01(2005)腐蚀或高温下使用的大直径奥氏体焊接钢管规格ASTM A411-03镀锌低碳钢铠装线规格ASTM A413/A413M-01 碳素钢链条规格ASTM A414/A414M-06(被ASTM A414/A414M-07代替)压力容器用碳素钢薄板规格ASTM A414/A414M-07室内装饰弹簧装置用冷拉之字型、方型和正弦型钢丝规格ASTM A416/A416M-06预应力混凝土用无镀层七股钢绞线规格ASTM A417-93(2004)室内装饰弹簧装置用冷拉之字型、方型和正弦型钢丝规格ASTM A418/A418M-05(被ASTM A418/A418M-07代替)涡轮机和发动机钢转子锻件超声波检验的试验方法ASTM A418/A418M-07涡轮机和发动机钢转子锻件超声波检验的试验方法ASTM A420/A420M-07低温用锻制碳素钢和合金钢管配件规格ASTM A421/A421M-05预应力混凝土用无镀层应力消失钢丝规格ASTM A423/A423M-95(2004)无缝和电焊接低合金钢管规格ASTM A424-06搪瓷用钢薄板规格ASTM A426/A426M-05(被ASTM A426/A426M-07代替)高温作业用离心浇铸铁素体合金钢管规格ASTM A426/A426M-07 高温作业用离心浇铸铁素体合金钢管规格ASTM A427-02冷轧与热轧用锻制合金钢轧辊规格ASTM A428/A428M-06 铝覆铁或钢件覆层的重量(质量)的试验方法ASTM A434-06热轧与冷精轧经淬火及回火的合金钢棒规格ASTM A435/A435M-90(2007)中厚钢板直射束超声检测规格ASTM A437/A437M-06高温用经特殊热处理的涡轮型合金钢螺栓材料规格ASTM A439-83(2004) 奥氏体可锻铸铁铸件ASTM A447/A447M-93(2003)高温用镍铬铁合金钢铸件(25-12级)规格ASTM A449-07a 经淬火和回火的钢螺栓和螺柱ASTM A450/A450M-04A碳素钢管、铁素体合金钢管及奥氏体合金钢管一般要求规格ASTM A451/A451M-06高温用离心浇铸奥氏体钢管规格ASTM A453/A453M-04 具有同奥氏体钢相类似膨胀系数的耐高温螺栓材料规格ASTM A455/A455M-03压力容器用高强度锰碳钢中厚板规格ASTM A456/A456M-99(2003)大曲轴锻件磁粉探伤规格ASTM A459-97(2003) 镀锌扁钢铠装带规格ASTM A460-94(2004)e1 包铜钢丝绳规格ASTM A463/A463M-06热浸法铝覆层薄钢板规格ASTM A466/A466M-01非焊接碳素钢链规格ASTM A467/A467M-01(2006)机器链和盘旋链规格ASTM A469/A469M-07发电机转子用经真空处理钢锻件的规格ASTM A47/A47M-99(2004) 铁素体可锻铁铸件ASTM A470/A470M-05e1 涡轮机转子和轴用经真空处理的碳钢和合金钢锻件规格ASTM A471-06涡轮机转子盘和叶轮用经真空处理的合金钢锻件规格ASTM A472/A472M-05 汽轮机轴和转子锻件热稳定性的试验方法ASTM A473-01 不锈钢及耐热钢锻件规格ASTM A474-03镀铝钢丝绳规格ASTM A475-03镀锌钢丝绳规格ASTM A478-97(2002)铬镍不锈钢和耐热钢制编织钢丝规格ASTM A479/A479M-06A 锅炉及其它压力容器用不锈钢棒材和型材规格ASTM A48/A48M-03 灰铸铁铸件标准技术条件ASTM A480/A480M-06b平轧不锈钢及耐热钢中厚板、薄板及带材的一般要求规格ASTM A481-05 铬金属规格ASTM A482-05硅铬铁合金规格ASTM A483-04 硅锰合金规格ASTM A484/A484M-06b不锈钢棒材、方钢坯和锻件的通用要求规格ASTM A485-03 高硬度减磨轴承钢规格ASTM A487/A487M-93(2003)受压钢铸件规格ASTM A488/A488M-06(被ASTM A488/A488M-07代替) 钢铸件焊接人员及工艺评定规程ASTM A488/A488M-07 钢铸件焊接人员及工艺评定规程ASTM A489-04e1 碳素钢吊耳ASTM A490-06 最小拉伸强度为150千磅/平方英寸热处理钢结构螺栓ASTM A49-01(2006)热处理碳钢铁连接杆、微合金连接杆和锻造碳素钢异形连接杆规格ASTM A490M-04ae1 最小拉伸强度为150千磅/平方英寸热处理钢结构螺栓ASTM A491-03经热处理的碳素钢连接板规格ASTM A492-95(2004)耐热不锈钢丝绳用钢丝规格ASTM A493-95(2004) 冷镦和冷锻不锈钢和耐热钢丝及钢丝棒规格ASTM A494/A494M-05(被ASTM A494/A494M-07代替)镍及镍合金铸件规格ASTM A494/A494M-07镍及镍合金铸件规格ASTM A495-06硅钙及硅锰钙合金规格ASTM A496/A496M-05混凝土钢筋用变形钢丝规格ASTM A497/A497M-06e1 混凝土用异形焊接钢丝补强规格ASTM A498-06无缝与焊接碳素钢,铁素体与奥氏体合金钢制有整体散热片的换热器钢管规格ASTM A499-89(2002) 用T型钢轨轧制的碳素钢棒材及型材的规格ASTM A500-03A结构用碳素钢冷成形圆截面和异形截面焊接钢管和无缝钢管规格ASTM A501-07 热成型焊接碳钢结构管材和无缝碳钢结构管材规格ASTM A502-03 结构钢铆钉规范ASTM A503/A503M-01(2006)锻造曲轴超声波检验规格ASTM A504/A504M-07 锻制碳钢轮规格ASTM A505-00(2005) 热轧及冷轧合金钢薄板和带材的一般要求规格ASTM A506-05 热轧和冷轧合金钢及结构合金钢薄板与带材规格ASTM A507-06热轧和冷轧拉制合金钢薄板及带材规格ASTM A508/A508M-05b压力容器用淬火和回火真空处理碳素钢和合金钢锻件规格ASTM A510-06 碳素钢盘条和粗圆钢丝的一般要求规格ASTM A510M-06碳素钢盘条和粗圆钢丝的一般要求规格(米制)ASTM A511-04无缝不锈钢机械管系的规格ASTM A512-06 冷拉对焊碳素钢机械管规格ASTM A513-07电阻焊碳素钢与合金钢机械管规格ASTM A514/A514M-05焊接用经回火与淬火的高屈服强度合金钢中厚板规格ASTM A515/A515M-03中温及高温压力容器用碳素钢中厚板规格ASTM A516/A516M-06 中温及低温设备用压力容器碳素钢中厚板规格ASTM A517/A517M-06压力容器用经回火与淬火的高强度合金钢中厚板规格ASTM A518/A518M-99(2003)耐蚀高硅铁铸件ASTM A519-06 无缝碳素钢与合金钢机械管系规格ASTM A521/A521M-06一般工业用闭式模锻模锻件规格ASTM A522/A522M-07低温工作用锻制或轧制含镍8%和9%的合金钢法兰、配件、阀门和零件的规格ASTM A523-96(2005)高压管型电缆通路用平头端无缝及电阻焊钢管规格ASTM A524-96(2005) 环境温度和低温用无缝碳素钢管规格ASTM A529/A529M-05优质高强度碳锰结构钢规格ASTM A53/A53M-06A 热浸镀锌黑钢焊接管及无缝管规格ASTM A530/A530M-04A特种碳素钢及合金钢管一般要求规格ASTM A531/A531M-91(2006)汽轮发电机钢挡圈的超声波检验规程ASTM A532/A532M-93a(2003)耐磨铸铁ASTM A533/A533M-93(2004)e1压力容器用经回火和淬的锰钼及锰钼镍合金钢中厚板规格ASTM A534-04 耐磨轴承用渗碳钢规格ASTM A537/A537M-06 压力容器用经热处理的碳锰硅钢中厚板规格ASTM A540/A540M-06专用合金钢螺栓连接材料规格ASTM A541/A541M-05压力容器部件用经淬火和回火的碳素钢及合金钢锻件规格ASTM A542/A542M-99(2004)e1压力容器用经淬火和回火的铬钼、铬钼钒和铬钼钒钛硼合金钢中厚板规格ASTM A543/A543M-93(2004)e1 压力容器用经淬火和回火的镍铬钼合金钢厚板规格ASTM A550-06铌铁合金规格ASTM A551/A551M-05(被ASTM A551/A551M-07代替) 铁路和高速运输用碳素钢轮箍规格ASTM A551/A551M-07 铁路和高速运输用碳素钢轮箍规格ASTM A553/A553M-06压力容器用经回火和淬火的含8%及9%镍的合金钢中厚板规格ASTM A554-03焊接的不锈钢机械管系规格ASTM A555/A555M-05不锈钢丝和盘条一般要求规格ASTM A556/A556M-96(2005) 给水加热器冷拉无缝碳素钢管规格ASTM A560/A560M-05 铬镍合金铸件规格ASTM A561-71(2004)工具钢棒材宏观组织腐蚀试验规程ASTM A562/A562M-06 有玻璃涂层或扩散的金属涂层的压力容器用碳素钢和锰钛合金钢厚板规格ASTM A563M-06 碳素钢及合金钢螺母技术规范(米制)ASTM A564/A564M-04热锻及冷加工时效硬化不锈及耐热钢棒及型材规格ASTM A565/A565M-05A高温设备用马氏体不锈钢棒材规格ASTM A568/A568M-06A(被ASTM A568/A568M-07代替)高强度低合金热轧和冷轧结构碳素钢薄板一般要求规格ASTM A568/A568M-07高强度低合金热轧和冷轧结构碳素钢薄板一般要求规格ASTM A571/A571M-01(2006) 适用于低温压力容器零件的奥氏体球墨铸铁件ASTM A572/A572M-07高强度低合金铬钒结构钢规格ASTM A573/A573M-05增强韧性的结构用碳素钢中厚板规格ASTM A574-04e1 合金钢内六角螺钉ASTM A574M-04e1 合金钢内六角螺钉(米制)ASTM A575-96(2002) 商品级碳素钢棒规格(M级)ASTM A576-90b(2006) 特级热锻碳素钢棒规格ASTM A577/A577M-90(2007)中厚钢板超声波斜射束检测规格ASTM A578/A578M-96(2001)直射束超声波检验专用的普通钢板和复合钢板规格ASTM A579/A579M-04A 超强度合金钢锻件规格ASTM A581/A581M-95b(2004)易切高速切削用耐热不锈钢丝和钢丝棒规格ASTM A582/A582M-05易切削不锈钢棒规格ASTM A586-04A 镀锌平行与螺旋钢丝结构索规格ASTM A587-96(2005)化学工业用电阻焊低碳素钢管规格ASTM A588/A588M-05 4 in. (100 mm)厚屈服点最小为50 ksi /平方英寸(345 MPa)的高强度低合金结构钢规格ASTM A589/A589M-06无缝焊接碳钢水井管规格ASTM A592/A592M-04压力容器用经回火和淬火的高强度低合金钢锻制附件及零件规格ASTM A595/A595M-06 结构用锥形低碳钢管或高强度低碳钢管规格ASTM A596/A596M-95(2004)用环形试验法和冲击法测定材料的直流磁性能的试验方法ASTM A597-87(2004) 铸造工具钢规格ASTM A598/A598M-02磁放大器磁芯的磁性能测试法ASTM A599/A599M-02冷轧电解镀锡钢薄板规格ASTM A6/A6M-07轧制结构钢棒、薄板、中厚板和打板桩的一般要求规格ASTM A600-92A(2004) 高速工具钢规格ASTM A601-05电解锰金属规格ASTM A602-94(2004)汽车用可锻铸铁件ASTM A603-98(2003)镀锌钢丝结构绳规格ASTM A604/A604M-07自耗电极再溶化钢棒材与钢坯宏观腐蚀试验方法ASTM A604-93(2003)(被ASTM A604/A604M-07代替)自耗电极再溶化钢棒材与钢坯宏观腐蚀试验方法ASTM A606-04高强度、低合金、热轧和冷轧且具有较好耐环境腐蚀性的钢、钢板及钢带规格ASTM A608/A608M-06 高温承压设备用铁-铬-镍高合金离心铸造管规格ASTM A609/A609M-91(2002)碳素低合金马氏体不锈钢铸件的超声波检查规程ASTM A610-79(2004)铁合金尺寸测量用样品的取样及试验方法ASTM A612/A612M-03中温及低温压力容器用高强度碳素钢中厚板规格ASTM A615/A615M-07 混凝土钢筋用变形及普通碳素钢棒材规格ASTM A618/A618M-04热成形焊接及无缝高强度低合金结构管材规格ASTM A623-06A 锡轧制产品一般要求规格ASTM A623M-06A锡轧制产品的一般要求规格(米制)ASTM A624/A624M-03一次压延的锡轧制产品和电镀锡薄板规格ASTM A625/A625M-03一次压延的锡轧制产品和未镀锡的黑钢板规格ASTM A626/A626M-03 二次压延的锡轧制产品和电镀锡薄板规格ASTM A627-03用于安全用途的均质机床不易加工的钢棒规格ASTM A630-03测定电镀锡板锡镀层重量的试验方法ASTM A632-04 普通无缝和焊接奥氏体不锈钢管(小直径)规格ASTM A633/A633M-01(2006)正火的高强度低合金结构钢规格ASTM A635/A635M-06A高强度低合金及具有经改进可成形性的高强度低合金热轧碳素钢薄板和带材及卷材通用要求规格ASTM A636-76(2004)氧化镍烧结块规格ASTM A638/A638M-00(2004)高温作业用沉淀硬化铁基超合金棒材、锻件和锻坯规格ASTM A640-97(2002)e1 8字型电缆架设支架用镀锌钢丝绳规格ASTM A644-05 铁铸件的相关术语ASTM A645/A645M-05压力容器用经特殊热处理的5%镍合金钢中厚板规格ASTM A646/A646M-06 航空器与航天器锻件用优质合金钢坯及坯段规格ASTM A648-04ASTM A 预应力混凝土管用冷拔钢丝规格ASTM A649/A649M-04波纹纸机械用锻制钢辊规格ASTM A650/A650M-03二次压延的锡轧制品、黑钢板规格ASTM A65-07钢轨道道钉规格ASTM A653/A653M-06A(被ASTM A653/A653M-07代替)热浸法镀锌或镀锌铁合金钢薄板规格ASTM A653/A653M-07 热浸处理的镀锌铁合金或镀锌合金薄钢板的标准规范ASTM A656/A656M-05e1具有经改进的可成形性的热轧结构钢、高强度低合金中厚板规格ASTM A657/A657M-03一次和二次压延的锡轧制产品及电镀覆铬未镀锡黑钢板的规格ASTM A659/A659M-06 商业级热轧碳素钢薄板和带材(最大含碳量为0.16%-0.25%)规格ASTM A66-07钢螺纹道钉规格ASTM A660-96(2005)高温下用离心铸造碳素钢管规格ASTM A662/A662M-03中低温作业用碳-锰-硅钢压力容器板规格ASTM A663/A663M-89(2006) 机械性能要求的商品级碳素钢棒规格(AASHTO M227/M227M) ASTM A664-06e1 在ASTM规范中对电工钢和层压钢级别的识别ASTM A666-03退火的或冷加工的奥氏体不锈钢厚钢板、带材、薄板和扁材规格ASTM A667/A667M-87(2003) 离心铸造的双金属(灰口及白口铸铁)圆柱体ASTM A668/A668M-04 一般工业用碳素钢和合金钢锻件规格ASTM A67-00(2005) 低碳钢及高碳钢热加工连接板规格ASTM A671-06 常温和较低温用电熔焊钢管规格ASTM A672-06 中温高压作业用电熔焊钢管规格ASTM A673/A673M-07结构钢冲击试验用取样方法规格ASTM A674-05 水或其它液体用球墨铸铁管的聚乙烯包装ASTM A675/A675M-03e1特级热锻碳素钢棒机械性能要求规格ASTM A677-05e1全处理型无取向电工钢ASTM A678/A678M-05结构用经回火和淬火的碳素钢和高强度低合金钢中厚板规格ASTM A679/A679M-06硬拔高抗拉强度钢丝规格ASTM A681-94(2004)工具钢合金规格ASTM A682/A682M-05冷轧高碳素钢带材一般要求规格ASTM A683-05e1 半处理型无取向电工钢ASTM A684/A684M-06冷轧高碳钢带材规格ASTM A686-92(2004) 碳素工具钢规格ASTM A688/A688M-04给水加热器用奥氏体不锈钢焊接管规格ASTM A689-97(2002)弹簧用碳素钢及合金钢棒规格ASTM A690/A690M-07海洋环境用耐大气腐蚀的高强度低合金镍、铜、含磷钢H型桩和钢板桩规格ASTM A691-98(2002) 高温下高压用电熔焊碳素钢和合金钢管规格ASTM A693-06沉淀硬化耐热不锈钢中厚板、薄板和带材规格ASTM A694/A694M-03 高压传输线用碳素钢及合金钢管法兰、配件、阀门及零件用锻件规格ASTM A696-90A(2006)压力管系部件用特殊的热锻或冷精轧碳素钢棒规格ASTM A700-05 船运钢产品的包装、标志和装船方法规程ASTM A701-05硅锰铁规格ASTM A702-89(2006)热锻钢栅栏柱和组件规格ASTM A703/A703M-07承压部件用钢铸件通用要求规格ASTM A704/A704M-06混凝土钢筋用焊接普通钢棒或钢筋网规格ASTM A705/A705M-95(2004)时效硬化的不锈及耐热钢锻件规格ASTM A706/A706M-06A 混凝土钢筋用低合金钢异形及普通棒材规格ASTM A707/A707M-02(2007)低温用锻制碳素钢和合金钢法兰规格ASTM A709/A709M-07桥梁用结构钢规格ASTM A710/A710M-02(2007)沉淀加强低碳镍铜铬钼钶合金结构钢中厚板规格ASTM A711/A711M-07 钢锻坯规格ASTM A712-97(2002)软磁性合金电阻率的测试方法ASTM A713-04热处理部件用高碳弹簧钢丝规格ASTM A714-99(2003) 高强度低合金焊接钢管和无缝钢管规格ASTM A716-03 球墨铸铁涵洞管ASTM A717/A717M-06单片样品表面绝缘电阻率的试验方法ASTM A719/A719M-02 磁性材料的叠装系数的试验方法ASTM A720/A720M-02无取向电工钢延展性的试验方法ASTM A721/A721M-02 取向的电工钢的延展性试验方法ASTM A722/A722M-07预应力混凝土用未镀覆高强度钢棒材规格ASTM A723/A723M-02高强度压力元件用合金钢锻件规格ASTM A724/A724M-04焊接多层式压力容器用经淬火及回火的碳锰硅钢压力容器中厚板规格ASTM A726-05 半成品型冷轧磁性迭片级钢ASTM A727/A727M-02(2007)具有内在切口韧性的管道部分用碳素钢锻件规格ASTM A729/A729M-06大量运输及电气列车设备用经热处理的合金钢轮轴规格ASTM A732/A732M-05通用熔模铸造碳钢铸件和低合金钢铸件及高温高强度钴合金铸件规格ASTM A733-03焊接及无缝碳素钢及奥氏体不锈钢管螺纹接套规格ASTM A734/A734M-87A(2003)压力容器用经淬火和回火的合金钢和高强度低合金钢中厚板规格ASTM A735/A735M-03压力容器用中温和低温下使用的低碳锰钼铌合金钢中厚板规格ASTM A736/A736M-03 压力容器用低碳时效硬化的镍铜铬钼铌和镍铜锰钼铌合金钢中厚板规格ASTM A737/A737M-99(2004)高强度低合金钢压力容器板规格ASTM A738/A738M-05 压力容器用中温和低温下使用的经热处理的碳锰硅钢中厚板规格ASTM A739-90A(2006)高温或承压部件或两者用热锻合金钢棒规格ASTM A74-06 铸铁污水管及配件的技术规范ASTM A740-98(2003)金属器具织物(机织或焊接电镀钢丝织物)规格ASTM A741-98(2003) 铸铁污水管与管件规格ASTM A742/A742M-03波纹钢管用预涂聚合物和金属涂覆钢薄板规格(AASHTO M246/M246M)ASTM A743/A743M-06一般用耐磨蚀铬铁及镍铬铁合金铸件规格ASTM A744/A744M-06严酷条件下使用的耐腐蚀镍铬铁合金铸件规格(AASHTO M285/M285M)ASTM A745/A745M-94(2003) 奥氏体钢锻件的超声波检验ASTM A746-03 排污管用球墨铸铁ASTM A747/A747M-04(被ASTM A747/A747M-07代替)沉淀硬化不锈钢铸件规格ASTM A747/A747M-07沉淀硬化不锈钢铸件ASTM A748/A748M-87(2003) 压力容器用静态铸造的激冷白口铁-灰口铁双金属轧辊ASTM A749/A749M-97(2002)热轧高强度低合金碳素钢带通用要求规格ASTM A751-07(被ASTM A751-07a代替) 钢产品化学分析试验方法、规程和术语ASTM A751-07a 钢产品化学分析方法试验及定义ASTM A752-04 合金钢制钢丝棒及粗圆钢丝的一般要求规格ASTM A752M-04合金钢制钢丝棒及粗圆钢丝的一般要求规格(米制)ASTM A753-02 镍铁软磁合金ASTM A754/A754M-06 使用X射线荧光法对钢上金属镀层的镀层重量(质量)的试验方法ASTM A755/A755M-03室外露天建筑产品用热浸金属敷层和线材卷经预涂漆的钢薄板规格ASTM A756-94(2001)不锈耐磨轴承钢规格ASTM A757/A757M-00(2004)低温下承压设备及其它设备用铁素体和马氏体的钢铸件规格ASTM A758/A758M-00(2005)具有经改进冲击韧性的锻制碳素钢对接焊管道配件规格ASTM A759-00(2005) 碳素钢吊车轨规格ASTM A760/A760M-06污水管和排污管用金属镀层波纹钢管规格ASTM A761/A761M-04野外栓接管、管拱和拱用镀锌波纹结构钢中厚板规格(AASHTO M167/M167M)ASTM A762/A762M-00下水道和排水沟用预涂聚合物波纹钢管(AASHTO M245/M245M) ASTM A763-93(2004) 铁素体不锈钢晶间腐蚀敏感性检测规格ASTM A764-07弹簧用按尺寸涂敷及拉制的金属镀敷碳钢丝的规格ASTM A765/A765M-04具有强制性韧性要求的压力容器部件用碳素钢及低合金钢锻件规格ASTM A767/A767M-05 混凝土钢筋用镀锌钢棒规格ASTM A768/A768M-05 涡轮机转轮和轴用经真空处理的12%铬合金钢锻件规格ASTM A769/A769M-05高强度电阻锻焊碳素钢结构型材ASTM A770/A770M-03 特殊用钢中厚板整个厚度的抗拉试验规格ASTM A772/A772M-00(2005) 正弦电流用材料的交流磁导率的试验方法ASTM A773/A773M-01 用带直流电子的磁滞曲线记录仪的(B-H)回路法测量材料的磁性能的标准试验方法ASTM A774/A774M-06 低温和中温一般腐蚀用焊接的锻制奥氏体不锈钢配件规格ASTM A775/A775M-06(被ASTM A775/A775M-07代替)环氧树脂镀层钢配筋规格ASTM A775/A775M-07 环氧树脂镀层钢配筋规格ASTM A778-01焊接未退火的奥氏体不锈钢管形制品的规格ASTM A779/A779M-05 预应力混凝土用无镀敷、紧密、应力释放的七股绞钢丝索规格ASTM A780-01(2006)热浸电镀层损坏及未涂覆地方的修补规格ASTM A781/A781M-06一般工业用钢及合金钢铸件通用要求规格ASTM A782/A782M-06压力容器用经淬火和回火的锰铬钼硅锆合金钢中厚板规格ASTM A786/A786M-05热轧碳素钢、低合金钢、高强度低合金钢和合金钢楼面板规格ASTM A787-05 电阻焊金属涂覆碳素钢机械管规格ASTM A788/A788M-06钢锻件一般要求规格ASTM A789/A789M-05b通用无缝与焊接铁素体/奥氏体不锈钢管规格ASTM A790/A790M-05b无缝与焊接铁素体/奥氏体不锈钢管规格ASTM A792/A792M-06A热浸法55%铝-锌合金镀敷薄钢板规格ASTM A793-96(2001) 不锈钢轧制楼板规格ASTM A794-06商品冷轧碳素钢薄板(最高含碳量为0.16%-0.25%)规格ASTM A795/A795M-04(被ASTM A795/A795M-07代替) 消防用黑色和热浸镀锌(镀锌)焊接与无缝钢管规格ASTM A795/A795M-07 消防用黑色和热浸镀锌(镀锌)焊接与无缝钢管规格ASTM A796/A796M-06 雨水管、污水管和其它地下设备用波纹钢管、管拱和拱形结构设计规程ASTM A798/A798M-01污水道和其他设备用工厂制波纹钢管安装规程ASTM A799/A799M-04估价铁素体含量用仪器校准不锈钢铸件规格ASTM A800/A800M-01(2006)估价奥氏体合金钢铸件中铁素体含量的规程ASTM A801-04 铁钴高磁性饱和合金ASTM A802/A802M-95(2006) 目测检定铸件表面是否符合标准的规程ASTM A803/A803M-03 焊接铁素体不锈钢给水加热器管规格ASTM A804/A804M-04在电力频率下用薄钢板型试样对材料交流磁特性的测试方法ASTM A805-93(2002)冷轧碳素钢扁平丝规格ASTM A807/A807M-02e1污水道和其他设施用波纹钢结构中厚板管的安装规程ASTM A809-03镀铝碳素钢丝规格ASTM A810-01镀锌钢管绕网规格ASTM A811-03 粉末冶金技术制造的软磁铁零件ASTM A813/A813M-01(2005) 单或双焊奥氏体不锈钢管规格ASTM A814/A814M-05冷加工焊接奥氏体不锈钢管规格ASTM A815/A815M-07锻制铁素体、铁素体/奥氏体和马氏体不锈钢管配件规格ASTM A817-03链环栅栏结构用金属涂覆钢丝规格ASTM A818-06镀铜碳素钢丝规格ASTM A82/A82M-05A混凝土钢筋用普通钢丝规格ASTM A820/A820M-06 钢纤维混凝土用钢纤维规格ASTM A821/A821M-05预应力混凝土贮水池用冷拉钢丝规格ASTM A822/A822M-04 液压系统用无缝冷拔碳钢管规格ASTM A824-01(2007)链环栅栏用Marcelled拉力金属涂覆钢丝规格ASTM A824-01(被ASTM A824-01(2007)代替)链环栅栏用Marcelled拉力金属涂覆钢丝规格ASTM A827/A827M-02(2007)锻件及类似产品用碳素钢中厚板规格ASTM A829/A829M-06 合金结构钢中厚板规格ASTM A830/A830M-06符合化学成份要求的结构用优质碳素钢中厚板规格ASTM A832/A832M-06 压力容器用铬钡以及铬钼钒钛硼合金钢规格ASTM A833-84(2001)用比较硬度测试仪测定金属材料硬刻痕推荐规格ASTM A834-95(2006) 一般工业用铁铸件的一般要求ASTM A835/A835M-84(2005) 铁合金和合金添加物尺寸规格ASTM A836/A836M-02(2007) 玻璃内衬管和压力容器用钛稳定碳素钢锻件规格ASTM A837/A837M-06 渗碳设备用合金钢锻件规格ASTM A838-02(2007) 继电器用易切削铁素体不锈软磁合金技术规范ASTM A839-02 软磁用途的磷铁粉末冶金制造的零件技术规范ASTM A840-06 全处理的磁性夹层钢ASTM A841/A841M-03A压力容器用热机械控制工艺加工(TMCP)的中厚钢板规格ASTM A842-85(2004)致密石墨铁铸件ASTM A844/A844M-04 直接淬火加工的压力容器用含9%镍的合金钢中厚板规格ASTM A847/A847M-05 具有经改进的抗环境腐蚀性的冷成型焊接及无缝高强度低合金结构管规格ASTM A848-01(2006) 低碳磁铁ASTM A849-00(2005) 波纹钢排水管和污水管后涂敷层、铺面材料和衬里规格ASTM A852/A852M-03(2007)经淬火与回火的低合金结构钢中厚板[厚度为4英寸(100毫米),最小屈服强度70000磅/平方英寸(485兆帕)]规格(AASHTO M313/M313M)ASTM A852/A852M-03(被ASTM A852/A852M-03(2007)代替) 经淬火与回火的低合金结构钢中厚板[厚度为4英寸(100毫米),最小屈服强度70000磅/平方英寸(485兆帕)]规格(AASHTO M313/M313M)ASTM A853-04普通用碳素钢丝规格ASTM A854/A854M-98(2003)金属镀层光面高强度钢栅栏和格构钢丝规格ASTM A855/A855M-03锌-5%铝-铈合金涂覆的钢丝绳规格ASTM A856/A856M-03锌-5%铝-铈合金涂覆的碳素钢丝规格ASTM A857/A857M-07冷成形轻型薄钢板桩规格ASTM A858/A858M-07 低温和腐蚀下用经热处理的碳素钢零件的规格ASTM A859/A859M-04压力容器部件用时效硬化镍铜铬钼铌低碳合金钢锻件规格ASTM A860/A860M-00(2005)锻制高强度低合金钢对焊配件规格ASTM A861-04 高硅铁管和配件ASTM A862/A862M-98(2003)波纹钢污水管和排水管上沥青覆层涂敷规程ASTM A865/A865M-06 管接合用黑钢或覆锌(镀锌)焊接或无缝管接头规格ASTM A866-01抗磨轴承用中碳钢规格ASTM A871/A871M-03(2007) 抗空气腐蚀的高强度低合金结构钢中厚板规格ASTM A871/A871M-03(被ASTM A871/A871M-03(2007)代替) 抗空气腐蚀的高强度低合金结构钢中厚板规格ASTM A872/A872M-07A腐蚀环境用离心铸造铁素体/奥氏体不锈钢管规格ASTM A874/A874M-98(2004) 适于低温使用的铁素体球墨铸铁铸件ASTM A875/A875M-06热浸处理的锌-5%铝合金涂覆的钢薄板规格ASTM A876-03全处理型平轧的晶粒取向的硅铁电工钢ASTM A877/A877M-05 阀弹簧用优质铬硅合金钢丝规格ASTM A878/A878M-05 阀弹簧用优质经改良铬钒钢丝规格ASTM A879/A879M-06要求指定每个表面涂层质量的设备用电解法镀锌薄钢板规格ASTM A881/A881M-05预应力混凝土铁路轨枕用应力消失或低应力释放的异形钢丝规格ASTM A882/A882M-04A有环氧涂层的七根线预应力钢丝绳规格ASTM A884/A884M-06 环氧涂层钢丝和焊接钢丝加固规格ASTM A886/A886M-05预应力混凝土用应力消除的七线齿纹钢丝绳规格ASTM A887-89(2004)核设备用经硼酸处理过的不锈钢中厚板、薄板及带材规格ASTM A888-07a下水管、雨水管、污水管和排气管道用无衬套铸铁管和配件ASTM A889/A889M-03 在低感应条件下用万用表法和25厘米艾普斯亭(Epstein)框测定材料的交流磁特性的试验方法ASTM A890/A890M-99(2003)通用铁--铬--镍--钼耐腐蚀双联(奥氏体/铁素体)钢铸件规格ASTM A891/A891M-07 高碳轴承钢显微结构的确定和检定指南ASTM A891-98(2003)(被ASTM A891/A891M-07代替) 涡轮转子盘和轮用沉淀硬化铁基超合金锻件规格ASTM A892-06 高碳轴承钢显微结构的确定和检定指南。
ASTM 标准目录 钢材部分
ASTM 标准ASTM A6/A6M-2004 a结构用轧制钢板、型钢、板桩和棒钢通用要求ASTM A36/A36M-2004碳结构钢标准规范ASTM A106-2002a高温用无缝碳钢公称管规范ASTM A143-2003热侵镀锌结构钢制品防脆化的标准实施规程和催化探测方法ASTM A179/A179M-1990a(R2001)热交换器和冷凝器用无缝冷拉低碳钢管标准规范 ASTM A192-2002高压设备用无缝碳钢锅炉管标准规范ASTM A209/A209M-2003锅炉和过热器用无缝碳钼合金钢管标准规范ASTM A210/A210M-2003锅炉和过热器用无缝中碳钢管技术条件ASTM A213/A213Mb-2004锅炉过热器和换热器用无缝铁素体和奥氏体合金钢传热管技术条件 ASTM A234/A234M-2004中、高温用锻制碳钢和合金钢管道配件ASTM A252-98(R2002)焊接钢和无缝钢管桩的标准规范ASTM A262-2002a探测奥氏体不锈钢晶间腐蚀敏感度的标准实施规范ASTM A269/A269-2004通用无缝和焊接奥氏体不锈钢管标准规范ASTM A333/A333M-2004低温设备用无缝和焊接钢管的规范标准ASTM A334/A334M-2004低温设备用无缝和焊接碳素和合金钢管的标准规范ASTM A335-2003高温设备用无缝铁素体合金钢管标准规范ASTM A370/A370M-2003a钢制品力学性能试验方法和定义标准ASTM A387/A387M-2003压力容器用铬钼合金钢板的标准规范ASTM A403/A403M-2004锻制奥氏体不锈钢管配件的标准规范ASTM A450/A450M-2004碳素钢管、铁素体合金钢管及奥氏体合金钢管一般要求的标准规范 ASTM A500-2003a圆形与异型冷成型焊接与无缝碳素钢结构管标准规范ASTM A515-2003中温及高温压力容器用碳素钢板的标准规范ASTM A516-2004a中温及低温压力容器用碳素钢板的标准规范ASTM A530-2003特种碳素钢和合金钢管一般要求的标准规范ASTM A615/A615M-2004a混凝土配筋用异形钢筋和无节钢胚棒标准规范ASTM A703/A703M-2004标准技术条件—承压件钢铸件通用要求ASTM A781/A781M-2004a铸件、钢和合金的标准规范及通用工业的一般性要求 ASTM A788/A788M-2004a标准技术条件—钢锻件通用要求ASTM B209/B209M -2004铝和铝合金薄板和中厚板标准规范ASTM E6-2003金属材料布氏硬度的标准测试方法ASTM E18-2003金属材料洛氏硬度和洛氏表面硬度的标准测试方法ASTM E29-2002使用有效数字确定试验数据与规范符合性作法ASTM E8-2004金属材料拉伸试验的标准测试方法ASTM E94-2004放射性检查的标准指南ASTM E125-1963(R2003)铁铸件的磁粉检验用标准参考照片ASTM E164-2003焊件的超声接触检验的标准操作规程ASTM E208-1995a(R2000)用导向落锤试验测定铁素体钢无塑性转变温度的标准试验方法 ASTM E213-2004金属管超声检验方法ASTM F36-1995测定垫片材料压缩率及回弹率的标准试验方法ASTM F37-1995垫片材料密封性的标准试验方法ASTM F38-1995垫片材料的蠕变松弛的标准试验方法ASTM F112-1995色覆垫片密封性能的标准试验方法ASTM F146-1995a垫片材料耐液体标准试验方法ASTM F1311-1995(R2001)大口径组装式碳钢法兰标准规范ASTM G1-2003腐蚀试样的制备、清洁处理和评定用标准实施规范ASTM G36-73(R1981) 参考资料标准实用规程:在沸的氯化镁溶液中进行的应力腐蚀裂纹试验ASTM G46-1976(R1986) 参考资料 标准实用规程:麻点腐蚀的检验和评定ASTM G48-1976(R1980) 参考资料 使用三氯化铁溶液做不锈钢及其合金的耐麻点腐蚀和抗裂口腐蚀性试验的标准方法ASTM标准中译本丛书(一)碳钢、铸铁、不锈钢及合金钢材料标准规范(含18个标准)ASTM A105/A105M-2002管道部件用碳钢锻件ASTM A126-1995(R2001)阀门、法兰和管道附件用灰铁铸件ASTM A181/A181M-2001通用管路用碳钢锻件标准规范ASTM A193/A193M-2001高温用合金钢和不锈钢螺栓材料ASTM A194/A194M-2001 a高温用合金钢和不锈钢螺栓材料ASTM A216/A216M-2001 a高温用可熔焊碳钢铸件标准规范ASTM A217/A217M-2002高温承压件用马氏体不锈钢和合金钢铸件标准规范ASTM A276-2002 a不锈钢棒材和型材ASTM A278/A278M-2001高温不超过650°F(350℃)的承压部件用灰铸铁件ASTM A320/A320M-2002低温用合金钢栓接材料ASTM A350/A350M-2002要求冲击韧性试验的管件用碳钢及低合金钢锻件标准规范ASTM A351/A351M-2000承压件用奥氏体、奥氏体-铁素体(双相)钢铸件规范ASTM A352/A352M-1993(R1998)低温承压件用铁素体和马氏体钢铸件标准规范ASTM A395/A395M-1999高温用铁素体球墨铸铁承压铸件ASTM A439-1983(R1999)奥氏体球墨铸铁件ASTM A536-1984(R1999)球墨铸铁件ASTM A694/A694M-2000高温输送用管法兰、管件、阀门及零件用碳钢和合金钢锻件标准规范ASTM A965/A965M-2002高温高压部件用奥氏体钢锻件ASTM标准中译本丛书(二)法兰、管件、阀门及部件(含9个标准)ASTM A182/A182M-2002高温用锻制或轧制合金钢法兰、锻制管件、阀门和部件ASTM A961-2002管道用钢制法兰、锻制管件、阀门和零件的通用要求标准规范ASTM B462-2002高温耐腐蚀用锻制或轧制的UNS NO6030、UNS NO6022、UNS NO6200、UNS NO8020、UNS NO8024、UNS NO8026、UNS NO8367、UNS NO10276、UNS N10665、UNS N10675和UNS R20033合金管法兰、锻制管件、阀门和零件标准规范ASTM F885-1984公称管径为NPS 1/4~2的青铜 截止阀外形尺寸标准规范ASTM F992-1986(R2001)阀门铭牌标准规范ASTM F993-1986(R2001)阀门锁紧装置标准规范ASTM F1030-1986(R1998)阀门操作装置的选择准则ASTM F1098-1987(R1998)公称管径有NPS2~24的蝶阀外形尺寸标准规范ASTM F1565-2000蒸汽用减压阀规范参考资料:外国标准中文版(ASTM 美国材料与试验协会标准中文版)。
美国ASTM的不锈钢标准标_准体系和牌号概述
研究分析各工业发达国家的不锈钢标准 ,可以看 出 ,美国 ASTM 的不锈钢标准 ,数量最多 ,牌号最丰 富 ,品种规格最全 ,专业性和实用性最强 ,综合质量水 平最高 ,反映了世界不锈钢生产技术的先进水平 。
ASTM 不锈钢标准约有 71 个 ,构成三层结构的标 准体系 。第一层为牌号标准 ,即 ASTM A959 - 00《a 压 延不锈钢标准牌号化学成分协调导则》。该标准列有 奥氏体 、奥氏体 - 铁素体 、铁素体 、马氏体 、沉淀硬化 等五类不锈钢共 201 个牌号 (见表 2) ,供 ASTM 有关 分委员会制定不锈钢产品标准时统一使用牌号及化 学成分 ,避免混乱 。第二层为钢棒 、板带 、钢丝 、钢管 四大品种的通用技术要求 ,即 ASTM A 480ΠA480M《不 锈钢和耐 热 钢 厚 板 、薄 板 和 钢 带 一 般 要 求》、A480Π A484M《不锈钢棒材 、钢坯和锻件一般要求》、A555Π A555M《不 锈 钢 线 材 和 钢 丝 一 般 要 求 》、A999ΠA999M 《合金钢和不锈钢钢管 (pipe) 一般要求》。第三层为 各品种具体标准 ,钢板 (带) 约 16 个 ,钢棒 、型钢约 13 个 ,钢丝 、线材约 11 个 ,钢管约 30 个 。标准体系框架 图如图 1 。
16
13
16
沉淀硬化
3
15
3
3
4
总 数
90
201
95
82
83
注 : EN 为欧洲标准化委员会标准代号 。欧洲标准现已为德 、 法 、英等欧盟成员国采用 ,其标准代号为在 EN 前加 DIN、NF、BS 等各成员国标准代号 。
从表 1 看出 ,美国 ASTM 不锈钢标准牌号数为其 它国家标准牌号数的两倍以上 (具体牌号及化学成分 见 A959 - 00a 标准) 。从化学成分分析这些牌号 ,有 以下特点 :
美国ASTM不锈钢标准
美国ASTM不锈钢标准美国ASTM不锈钢标准美国ASTM不锈钢标准(约有72个标准)1.3.1坯、棒、线、型钢标准ASTM A341—88 锻造用不锈和耐热钢坯及钢棒ASTM A484/A484M—88 不锈和耐热钢棒、钢坯及锻件的一般要求ASTM A473—87 不锈和耐热钢锻件ASTM A479/A479M—90 锅炉和压力容器用不锈及耐热钢棒材和型钢ASTM A493—88 冷顶锻和冷镦丝用不锈钢及耐热钢ASTM A555/A555M—88a 不锈钢和耐热钢丝盘条的一般要求ASTM A564/A564M—89 热轧和冷加工时效硬化不锈钢和耐热钢棒材及型钢ASTM A565—2002 高温用马氏体不锈钢棒、锻件和锻坯ASTM A831—84 重要部件用不锈耐热钢棒、钢坯及锻件ASTM A276—2002 不锈和耐热钢棒材及型钢ASTM A582—2002 热轧或冷拉易切不锈钢和耐热钢棒材ASTM F138—2000 外科植入用18Cr14Ni2.5Mo不锈钢条材和线材A484/A484M 不锈钢棒材、钢坯和锻件的一般要求1.3.2钢板、钢带标准ASTM A167—99 不锈钢和耐热铬镍钢中板、薄板及钢带ASTM A176—99 不锈钢和耐热铬钢中板、薄板及钢带ASTM A240/A240M—99a 压力容器用耐热Cr和Cr-Ni不锈钢中板、薄板及钢带ASTM A263—99 耐腐蚀Cr钢复合中板、薄板及钢带ASTM A264—99 Cr-Ni不锈钢复合中板、薄板及钢带ASTM A412—87 耐热Cr-Ni-Mn不锈钢板、薄板及钢带ASTM A480/A480M—99a 不锈钢和耐热钢中板、薄板及钢带的一般要求ASTM A493—95 冷镦和冷锻用不锈钢线材及盘条ASTM A693—99 沉淀硬化不锈钢和耐热钢中板、薄板及钢带ASTM A793—85 不锈钢轧制肋板ASTM A666—2002 退火或冷加工奥氏体不锈钢薄板、钢带、中厚板和扁钢ASTM A887—1989,2000重审核能用含硼不锈钢中厚板、薄板和钢带1.3.3无缝及焊接钢管标准ASTM A213—84b 锅炉、过热器、热交换器用铁素体和奥氏体合金钢无缝钢管ASTM A249—84b 锅炉、过热器、热交换器及冷凝器用奥氏体钢焊接钢管ASTM A262—81 检验奥氏体不锈钢晶间腐蚀敏感性的标准方法ASTM A268/A268M—90a 一般用途铁素体及马氏体不锈钢无缝和焊接钢管ASTM A269—90a 一般用途奥氏体不锈钢无缝及焊接钢管ASTM A270—2002 卫生用奥氏体不锈钢无缝和焊接钢管ASTM A271—84b 炼油设备用奥氏体铬镍钢无缝蒸馏管ASTM A312/A312M—88a 奥氏体不锈钢无缝和焊接钢管ASTM A409—84b 耐腐蚀或高温用大口径奥氏体钢焊接钢管ASTM 376—84b 高温中心站用奥氏体钢用无缝钢管ASTM 450—84a 碳钢、铁素体和奥氏体合金钢的一般要求ASTM A511—84 机械用不锈钢无缝管ASTM A530—84 特殊钢和合金钢钢管的一般要求ASTM A554—85 机械用不锈钢焊接钢管ASTM A632—84 一般用途奥氏体小口径无缝和焊接钢管ASTM A651—84 供排水用不锈钢管ASTM A688—2001 给水加热器用奥氏体不锈钢焊管ASTM A731—88 铁素体和马氏体不锈钢无缝和焊接钢管ASTM A778—90 非热处理奥氏体不锈钢焊接钢管ASTM 289—84c 一般用途铁素体与奥氏体不锈钢无缝和焊接钢管ASTM 908—1991 不锈钢针管ASTM A789/A789M—85b 一般用途的铁素体/奥氏体不锈钢无缝和焊接钢管ASTM A790/A790M—89 铁素体奥氏体不锈钢无缝与焊接钢管ASTM A791—84b 非退火铁素体不锈钢焊管ASTM 803—84b 给水加热器用铁素体不锈钢焊管ASTM A813/A813M—88a 单面焊或双面焊奥氏体不锈钢管ASTM A814/A814M—2001 奥氏体不锈钢冷加工焊接钢管ASTM A826/A826M—1995,2001重审增殖反应堆堆芯部件用奥氏体和铁素体不锈钢导管ASTM A771/A771M—1995,2001年重审增殖反应堆堆芯部件用的无缝奥氏体和马氏体不锈钢钢管A1016/A1016M 铁素体合金钢、奥氏体合金钢和不锈钢管的一般要求1.3.4钢丝和钢丝绳标准ASTM A313/A313M—1995a 铬镍不锈钢和耐热弹簧钢丝ASTM A478—1995a 铬镍不锈钢丝及耐热钢编织钢丝ASTM A555/A555M—1995a 不锈、耐热钢丝和盘条的一般技术要求ASTM A492—1995,2000年重审不锈钢丝绳用钢丝ASTM A580/A580M—1998 不锈钢钢丝ASTM A368—1995a 不锈钢绞线。
astm标准 热轧双相钢
astm标准热轧双相钢
ASTM 标准中的热轧双相钢是指符合ASTM A789 标准的双相不锈钢,是一种具有高强度、良好的冲击韧性以及良好的整体和局部抗应力腐蚀能力的不锈钢材料。
热轧双相钢的化学成分包括铬、镍、钼、氮等元素,其中铬的含量在22%至25%之间,镍的含量在4.5%至6.5%之间,钼的含量在3%至3.5%之间,氮的含量在0.14%至0.2%之间。
这些元素的合理配比使得热轧双相钢具有优异的耐腐蚀性、强度和韧性。
热轧双相钢的机械性能也非常出色,其屈服强度比普通奥氏体不锈钢高一倍以上,抗拉强度也较高。
同时,它还具有良好的冲击韧性和耐磨性,能够在恶劣的环境下长期稳定运行。
热轧双相钢在石油化工、海洋工程、造纸、制药等领域得到了广泛的应用。
它可以用于制造压力容器、管道、泵、阀门、换热器等设备,具有良好的耐腐蚀性和耐磨性,能够满足这些领域对高性能材料的需求。
总之,ASTM 标准热轧双相钢是一种高性能的不锈钢材料,具有优异的耐腐蚀性、强度和韧性,被广泛应用于各个领域。
ASTM标准号A B C
ASTM标准号A B CASTM A/B/C/D/E/F/G 2006年标准,只为索引无下载A3-01(2006) 低、中、高碳素钢鱼尾(连接)板A20/A20M-06 压力容器用钢板材通用要求A34/A34M-06 磁性材料的抽样和采购试验的标准惯例A49-01(2006) 经热处理的碳素钢鱼尾(连接)板,微合金鱼尾板及锻制碳素钢异型鱼尾板A53/A53M-06 无镀层热浸的、镀锌的、焊接的及无缝钢管的技术规范A74-06 铸铁污水管及配件的技术规范A106/A106M-06a 高温用无缝碳素钢管A135/A135M-06 电阻焊钢管A159-83(2006) 汽车用灰铁铸件A181/A181M-06 普通锻制碳素钢管的规格A182/A182M-06 高温设备用锻制或轧制的合金钢管法兰、锻制管件、阀门及零件A184/A184M-06 混凝土加筋用变形钢筋编织网A185-06e1 钢筋混凝土用焊接钢丝结构A193/A193M-06a 高温设备用合金钢和不锈钢螺栓材料A194/A194M-06a 高温和高压设备用碳素钢与合金钢螺栓和螺母的规格A197/A197M-00(2006) 化铁炉用可锻铸铁A213/A213M-06ae1 无缝铁素体和奥氏体合金钢锅炉、过热器和换热器管A227/A227M-06 机械弹簧用冷拉钢丝A234/A234M-06 中温与高温下使用的锻制碳素钢及合金钢管配件A240/A240M-06c 压力容器用耐热铬及铬镍不锈钢板、薄板及带材A275/A275M-06 钢锻件的磁粉检查试验方法A276-06 不锈钢棒材和型材A278/A278M-01(2006) 适用于650F容压部件用灰铸铁件的技术规范A312/A312M-06 无缝和焊接奥氏体不锈钢管A319-71(2006) 高温无压部件用灰铁铸件A322-06 合金钢棒材.级别A325-06 经热处理最小抗拉强度为120/105ksi的热处理钢结构螺栓A327-91(2006) 铸铁冲击试验方法A327M-91(2006) 铸铁冲击试验方法(米制)A335/A335M-06 高温用无缝铁素体合金钢管A336/A336M-06 压力与高温部件用合金钢锻件规格A351/A351M-06 容压零件用奥氏体及奥氏体铁素体铸铁的技术规范A352/A352M-06 低温受压零件用铁素体和马氏体钢铸件规格A355-89(2006) 渗氮用合金钢棒A369/A369M-06 高温用锻制和镗孔碳素钢管和铁素体合金钢管A370-06 钢制品机械测试的标准试验方法和定义A376/A376M-06 高温中心站用无缝奥氏钢管A380-06 不锈钢零件、设备和系统的清洗和除垢A387/A387M-06 压力容器用铬钼合金钢板A390-06 饲养家禽用镀锌钢丝栏栅网(六角形和直线形)A400-69(2006) 钢棒的成分及机械性能选择指南A403/A403M-06 锻制奥氏体不锈钢管配件A414/A414M-06 压力容器用碳素薄钢板A416/A416M-06 预应力混凝土用无涂层七股钢铰线A420/A420M-06 低温下用锻制碳素钢和合金钢管配件A424-06 搪瓷用钢薄板A434-06 热轧与冷精轧经回火及淬火的合金钢棒A436-84(2006) 奥氏体灰口铁铸件A437/A437M-06 高温用经特殊处理的涡轮型合金钢螺栓材料A451/A451M-06 高温用离心铸造的奥氏体钢管A466/A466M-01 非焊接碳素钢链A467/A467M-01(2006) 机器链和盘旋链A469/A469M-06 用于发电机转子的真空处理钢锻件A471-06 涡轮转子转盘和转轮用真空处理合金钢锻件技术规范A479/A479M-06a 锅炉及压力容器用不锈钢和耐热钢棒与型材A480/A480M-06a 扁平轧制耐热不锈钢厚板材、薄板材和带材通用要求A484/A484M-06a 不锈及耐热锻钢棒,钢坯及锻件的规格A488/A488M-06 钢铸件焊接规程和工作人员的合格鉴定A490-06 最小拉伸强度为150千磅/平方英寸热处理钢结构螺栓A495-06 硅钙合金钢技术规范A497/A497M-06e1 钢筋混凝土用焊接变形钢丝网A498-06 无缝与焊接碳素钢,铁素体钢与奥氏体钢制有整体散热片的换热器钢管A503/A503M-01(2006)e1 锻制大型曲轴的超声波检验A507-06 优质拉拔,热轧和冷轧合金钢薄板与带材A510-06 碳素钢盘条和粗圆钢丝通用要求A510M-06 碳素钢盘条和粗圆钢丝通用要求A512-06 冷拉对缝焊碳素钢机械管A513-06a 电阻焊碳素钢与合金钢机械钢管A516/A516M-06 中温及低温压力容器用碳素钢板A519-06 无缝碳素钢与合金钢机械管A522/A522M-06 低温用锻制或轧制含镍8%和9%的合金钢法兰,配件,阀门和零件规格A531/A531M-91(2006) 涡轮发电机钢定位环的超声波检验A537/A537M-06 压力容器用经热处理的碳锰硅钢板A540/A540M-06 特殊用途的合金钢螺栓材料A550-06 铌铁合金A553/A553M-06 压力容器用经回火和淬火的含8%及9%镍的合金钢板A562/A562M-06 搪玻璃或扩散金属镀层的压力容器用锰钛合金碳素钢板A563M-06 碳素钢及合金钢螺母技术规范(米制)A568/A568M-06a 热轧及冷轧高强度低合金碳素钢薄板A571/A571M-01(2006) 适用于低温压力容器零件的奥氏体球墨铸铁件A572/A572M-06 高强度低合金钴钒结构钢技术规范A576-90b(2006) 特级热轧碳素钢棒A580/A580M-06 耐热不锈钢丝A595/A595M-06 结构用圆锥形低碳钢管A608/A608M-06 高温受压离心铸造的铁铬镍高合金钢管A615/A615M-06a 钢筋混凝土配筋用变形和光面坯钢筋A623-06a 锡轧制产品A623M-06a 镀锡薄钢板轧制品通用要求(米制)A633/A633M-01(2006) 正火的高强度低合金结构钢A635/A635M-06a 热轧碳素钢薄板,带材和重型粗盘条规格A653/A653M-06 热浸处理的镀锌铁合金或镀锌合金薄钢板的标准规范A659/A659M-06 商业级热轧碳素钢薄板和带材(最大含碳量为0.16%-0.25%)A663/A663M-89(2006) 商品级碳素钢棒的机械特性A664-06 在ASTM规范中对电工钢和层压钢级别的识别A671-06 常温和较低温用电熔焊钢管A672-06 中温高压用电熔焊钢管A679/A679M-06 硬(冷)拉高抗拉强度钢丝A684/A684M-06 冷轧高碳钢带材A693-06 沉淀硬化耐热不锈钢板、薄板和带材A696-90a(2006) 压力管道部件专用热锻或冷精轧碳素钢棒A702-89(2006) 热锻钢栅栏柱和组件A703/A703M-06 受压部件用钢铸件A704/A704M-06 混凝土加筋用焊接普通钢棒或杆的光面钢筋或钢筋网A706/A706M-06a 混凝土配筋用变形低合金光面无节钢筋A709/A709M-06 桥梁用结构钢A717/A717M-06 单片样品表面绝缘电阻率的试验方法A722/A722M-06 预应力混凝土用无涂覆的高强度钢筋A729/A729M-06 货物运输及电气铁路用热处理合金钢轴A739-90a(2006) 升温或/和加压部件用热轧合金钢棒A743/A743M-06 一般用耐腐蚀铬铁及镍铬铁合金铸件A744/A744M-06 严酷条件下使用的耐腐蚀镍铬铁合金铸件A751-01(2006) 钢制品化学分析的实验方法、操作和术语A754/A754M-06 X射线荧光涂层厚度的试验方法A760/A760M-06 下水道和排水沟用金属涂覆的波纹钢管A774/A774M-06 低温和中温一般腐蚀情况下用的焊接锻制奥氏体不锈钢配件A775/A775M-06 涂环氧树脂的钢筋钢棒A781/A781M-06 一般工业用一般要求的钢和合金铸件A782/A782M-06 经淬火和回火的锰铬钼硅锆合金钢压力容器板A788/A788M-06 钢锻件A792/A792M-06 热浸工艺法处理的55%铝-锌合金涂覆钢板A796/A796M-06 雨水管和卫生污水管及其它地下埋设管道用波纹钢管、管托架及拱形架结构设计惯例A800/A800M-01(2006) 奥氏体合金钢铸件中铁素体含量的估算A802/A802M-95(2006) 钢铸件外观检验的表面验收标准A818-06 镀铜碳素钢丝A820/A820M-06 纤维增强混凝土用钢纤维A829/A829M-06 结构性合金钢板A830/A830M-06 按照化学成分要求提供的优质碳素钢板技术规范A832/A832M-06 压力容器板用铬钼钒及铬钼钒钛硼合金钢A834-95(2006) 一般工业用铁铸件的一般要求A837/A837M-06 渗碳用合金钢锻件A840/A840M-00(2006) 全处理的磁性夹层钢A848-01(2006) 低碳磁铁A858/A858M-06 低温和腐蚀情况下用热处理碳素钢配件A865-06 钢管连接用黑色或镀锌焊接或无缝钢螺纹接头A879/A879M-06 每面镀层质量应予标明的电解镀锌薄钢板A897/A897M-06 等温淬火球墨铸铁A900/A900M-01(2006) 非晶磁性带材叠装系数的测试方法A902-06 与金属涂覆的钢制品有关的标准技术术语A917-06a 要求每一面标识有镀层质量用的电解工艺涂层的薄钢板材标准规范A918-06 要求在每一面标识有涂层质量用电解工艺镀锌镍合金的薄钢板技术规范A923-06 检测锻制双重奥氏体/铁素体不锈钢中有害金属间相的标准试验方法A924/A924M-06 用热浸镀法对薄钢板金属涂层的一般要求的标准规范A932/A932M-01(2006) 用瓦特计-安培计-伏特计和薄钢板样品测试在电源频率下非晶体材料交流磁性能的标准试验方法A937/A937M-06 使用临界试验面测定绝缘涂层层间阻力的标准测试方法A939-96(2006) 圆柱体锻件镗孔表面反射超声检测的标准试验方法A940-06 涡轮转子用的差温热处理真空处理钢锻件,合金钢锻件的标准规范A941-06a 钢,不锈钢,有关合金和铁合金术语A945/A945M-06e1 为改良可焊接性、可加工性及粘接性用低碳限硫的高强度低合金结构钢板的标准规范A951/A951M-06 砌体接缝配筋的技术规范A955/A955M-06a 混凝土增强的变形的和无节钢筋技术规范A956-06 钢制品依阔提皮(Equotip)硬度测试方法A957/A957M-06 一般工业用普通要求熔模铸造的钢及合金钢熔模铸件技术规范A958-00(2006) 拉伸要求及化学要求类似于标准铸造等级的碳钢和合金钢铸件的技术规范A960/A960M-06 普通要求的锻制钢管管件的标准规范A962/A962M-06 预定用于从低温至蠕变范围内任何温度的钢紧固件或其材料的通用要求A965/A965M-06a 压力和高温零件用奥氏体钢锻件的技术规范A966/A966M-96(2006) 用交流电和磁粉探伤检验钢锻件的标准试验方法A970/A970M-06 混凝土配筋用焊接或锻制镦头的棒材技术规范A983/A983M-06 中速柴油发动机用连续晶粒流向锻制的碳素钢及合金钢曲轴技术规范A986/A986M-01(2006) 连续晶粒流向曲轴锻件的磁粉探伤检查技术规范A990-06 耐腐用保压零件用特殊控制阀的铁铬镍和铬合金铸件技术规范A992/A992M-06a 建筑框架中使用的结构成型件钢规范A996/A996M-06a 混凝土用条钢和车轴钢变形钢棒规范A1001-01(2006) 大型材高强度钢铸件规范A1008/A1008M-06a 高强度低合金和改性高强度低合金冷轧结构碳钢板材规范A1011/A1011M-06b 高强度低合金和改型高强度低合金热轧结构碳钢板材和带材规范A1014/A1014M-06 高温下使用的沉淀硬化螺栓连接材料规范(UNS N07718)A1017/A1017M-06 压力容器铬-钼-钨合金钢板规范A1018/A1018M-06c 含铌或钒的高强度低合金和改性高强度低合金热轧厚镀锡卷板结构碳钢板材和带材规范A1022/A1022M-06 用于混凝土加固的变形和未变形的不锈钢钢筋和焊接钢筋规范A1035/A1035M-06 用于混凝土加固的变形和未变形的低碳含铬棒材规范A1040-06 Standard Guide for Specifying Harmonized Standard Grade Compositions f or Wrought Carbon, Low-Alloy, and Alloy SteelsA1046/A1046M-06 Standard Specification for Steel Sheet, Zinc-Aluminum-Magnesium Alloy-Coated by the Hot-Dip ProcessA1048/A1048M-06 Standard Specification for Pressure Vessel Forgings, Alloy Steel, High er Strength Chromium-Molybdenum-Tungsten for Elevated Temperature ServiceA1049/A1049M-06 Standard Specification for Stainless Steel Forgings, Ferritic/Austenitic(Duplex), for Pressure Vessels and Related ComponentsA1053/A1053M-06 Standard Specification for Welded Ferritic-Martensitic Stainless Steel PipeC10-06 Standard Specification for Natural CementC11-06 石膏及相关建材和系统相关术语C12-06 陶化粘土管线的安装C24-01(2006) 耐火和高矾土耐溶材料的溶锥当量测试法C25-06 石灰石,生石灰和熟石灰的化学分析方法C31/C31M-06 现场混凝土试样的制备和养护C43-06 结构用粘土制品的术语C51-06 与石灰及石灰石相关的(工业用)名词术语C59/C59M-00(2006) 石膏铸件和模型用灰泥C61/C61M-00(2006) 基恩(Keene)石膏水泥C67-06 砖及结构粘土瓦的取样和试验的试验方法C70-06 细集料表面湿度的测试方法C90-06a 承重混凝土空心砌块C94/C94M-06 搅拌好的混凝土规范C99-87(2006) 规格石料断裂模数的试验方法C110-06 生石灰,熟石灰和石灰石的物理试验方法C119-06 与规格石料相关的术语C120-06e1 石板的弯曲试验方法(弯曲模数和弹性模数)C121-06 石板吸水性的试验方法C125-06a 与混凝土和混凝土集料相关术语C131-06 用洛杉机磨耗试验机测定小规格粗集料的抗磨性与抗冲击性的试验方法C136-06 细集料及粗集料筛分试验方法C148-00(2006) 玻璃容器偏振检验的试验方法C157/C157M-06 硬化水泥灰浆和混凝土长度变化的试验方法C159-06 釉面陶瓷过滤块C170-06 天然建筑石料抗压强度的试验方法C174/C174M-06 混凝土钻心测量长度的试验方法C192/C192M-06 实验室中制造和养护混凝土的试验样品C207-06 砌筑用熟石灰C212-00(2006) 建筑用饰面瓷砖C216-06 饰面砖(粘土或页岩制实心砌块)C230/C230M-03 水硬性水泥试验用流动台C260-06 混凝土用加气混合物C265-06 水化硅酸盐水泥灰浆中的硫酸钙的试验方法C267-01(2006) 灰浆,薄浆和整块铺面石料耐化学侵蚀性的试验方法C270-06 砌块用的灰浆C273/C273M-06 夹层结构或夹层芯材的平直剪切性能的试验方法C305-06 塑性稠度的水硬性水泥泥浆和灰浆机械搅拌C309-06 养护混凝土用液态成膜化合物C315-06 粘土烟道衬砌料C323-56(2006) 卫生陶瓷粘土的化学分析的试验方法C329-88(2006) 焙烧卫生陶瓷材料比重的试验方法C341/C341M-06 水泥灰浆或混凝土的钻取试样和锯取试样长度变化的试验方法C359-06 硅酸盐水泥早硬的试验方法(灰浆法)C368-88(2006) 陶瓷器具抗冲击性的试验方法C370-88(2006) 焙烧卫生陶瓷制品受潮膨胀的试验方法C373-88(2006) 焙烧卫生陶瓷制品的吸水率、松密度、表观多孔性与表观比重的试验方法C375-58(2006) 搪瓷研磨用水的分类C387/C387M-06a 灰浆和混凝土用包装、烘干和复合材料C393/C393M-06 平夹层结构的挠曲试验方法C395-01(2006) 耐化学腐蚀的树脂灰浆C400-98(2006) 中和废酸用生石灰和熟石灰的试验方法C404-06 砌筑用灰浆集料C406-06 屋面石板瓦C408-88(2006) 卫生陶瓷制品传热性的试验方法C413-01(2006) 耐化学侵蚀的灰浆,薄浆和整块铺面石料吸收性的试验方法C424-93(2006) 用热压处理法测定焙烧卫生釉瓷抗破裂性的试验方法C428-05(2006) 石棉水泥无压污水管C448-88(2006) 工业瓷器茨漆的耐磨蚀的试验方法C452-06 暴露在硫酸盐中的硅酸盐水泥灰浆潜在膨胀性的试验方法C457-06 硬化混凝土中孔隙度和孔隙系统参数的显微测定的试验方法C458-98(2006) 石棉水泥制品中有机纤维含量的试验方法C459-97(2006) 石棉水泥板制品的试验方法C473-06 石膏板制品和石膏板条的物理测试标准试验方法C478-06b 预制钢筋混凝土检查井构件C478M-06b 预制钢筋混凝土检查井构件(米制)C500-98(2006) 石棉水泥管的试验方法C509-06 多孔弹性预成型垫片和密封材料C539-84(2006) 用干扰法测定搪瓷、釉瓷和白色陶瓷材料线性热膨胀的试验方法C541-98(2006) 石棉水泥管道的衬料C547-06 预制矿物纤维管形绝热材料C549-06 珠光岩疏松填充隔热材料C554-93(2006) 用热冲击法测定焙烧上釉卫生陶瓷器抗裂开的试验C578-06 刚性,蜂窝状聚苯乙烯的隔热C584-81(2006) 卫生陶瓷器具和有关制品的透光光泽度的试验方法C595-06 混合水硬性水泥C602-06 农用石灰处理材料C632-88(2006) 搪瓷用薄钢板的再煮倾向的试验方法C636/C636M-06 吸音瓦及铺设顶棚镶板用金属悬吊装置的安装C642-06 硬化混凝土的比重、吸收性及空隙度的试验方法C645-06 石膏板上无荷载(轴向)承载钢柱,滑槽(道)和硬性槽钢用的螺钉C661-06 用硬度计测量弹性密封件的压痕硬度的试验方法C665-06 木框架和轻型建筑物用矿质纤维毡绝热材料C674-88(2006) 卫生陶瓷材料的挠曲特性的试验方法C692-06 评定奥氏体钢热绝缘材料对外部应力腐蚀开裂趋势的影响的试验方法C694-90a(2006) 薄钢板在硫酸溶液浸渍过程中重量损失(质量损失)的试验方法C703-72(2006) 铝制搪瓷涂层的抗脱落试验方法C715-90(2006) 用光度计分析法测定搪瓷用钢表面沉积镍量的试验方法C716-06 安装锁条衬垫和固定上光材料C717-06 建筑用密封剂和密封料的术语C731-00(2006) 包装老化后胶乳密封料的可挤压性试验方法C732-06 人工风蚀对胶乳密封料老化效果的试验方法C734-06 胶乳密封料受人工气候影响后的低温柔韧性的试验方法C738-94(2006) 从上釉陶瓷表面提取铅和镉的试验方法C756-87(2006) 表面精整的清洁性试验方法C757-06 核纯级可烧结的二氧化钚粉末的规格C764-06 矿物纤维疏松填充热绝缘C773-88(2006) 预制封缝带泛油或增塑剂泛出的试验方法C774-88(2006) 焙烧的白色陶瓷材料抗压(压碎)强度的试验方法C778-06 玻璃上陶瓷装璜耐硫化物作用的试验方法C780-06 混凝土表面水平方向抗磨力的测试方法C787-06 浓缩用六氟化铀C794-06 弹性封缝料的抗撕裂粘附力的试验方法C810-90(2006) 用X射线光谱测定法测定搪瓷用钢制品表面镍沉积量的试验方法C822-06 混凝土管及其有关制品的术语C825-06 预制混凝土栅栏C830-00(2006) 用真空压力法测定耐火砖和异型砖的表观多孔性、吸水性、表观比重和体密度的试验方法C835-01(2006) 20-1400℃表面整个半球辐射热的测试方法C836-06 分层磨损层用的高固体含量冷却液体用弹性防水薄膜C840-06 石膏板的加工和应用C843-99(2006) 石膏砌面粉饰的应用C848-88(2006) 用共振法测定卫生陶瓷的弹性模量、切变模量和泊松比的试验方法C849-88(2006) 卫生陶瓷努氏压痕硬度的试验方法C864-05 致密弹性压缩密封垫片,调整垫块和定位块技术规范C866-77(2006) 卫生陶瓷粘土的过滤速率的测试方法C869-91(2006) 泡沫混凝土用生产预制泡沫材料用发泡剂C880-06 天然建筑石料弯曲强度的试验方法C889-06 核纯级的氧化钆(Gd2O3)粉末规格C890-06 整体或分段预制混凝土贮水及废水建筑物的最低结构设计负载的推荐规程C902-06 行人及交通不繁忙的道路用铺面砖C904-01(2006) 耐化学腐蚀的非金属材料的术语C905-01(2006) 耐化学的灰浆、薄胶泥和整体面层的表观密度的试验方法C908-00(2006) 预制密封带的屈服强度的试验方法C910-06 单一成份弹性溶剂释放型密封料的粘结力及粘聚力的试验方法C926-06 硅酸盐水泥基灰浆的应用C932-06 室外粉刷表面用粘结剂C933-05 焊丝板条C953-06 在实验室内测定预置集料混凝土的灌浆料凝固时间的试验方法C955-06 螺钉安装石膏板及金属灰泥基板用承载(横向及轴向)钢墙骨、导板、系杆或隔栅撑C957-06 与整体磨损层一同使用的冷却液用含大量固体物质的弹性防水薄膜C961-06 热用密封材料的搭接剪切强度的试验方法C968-06 烧结氧化钆及二氧化铀丸粒的分析方法C970-87(2006) 多个容器堆中专用核材料取样C972-00(2006) 密封带的压缩恢复的试验方法C989-06 混凝土和灰浆用研磨成颗粒状的高炉碎渣的技术规范C990-06 使用预制接缝密封胶粘结的混凝土管道、检查孔和预制箱型型件C990M-06 使用预制接缝密封胶粘结混凝土管道、检查孔和预制箱形件C992-06 核废燃料存放架用系列硼基中子吸收材料设备C1009-06 核工业化学分析实验室制订质量保证大纲C1015-06 纤维素和矿物纤维松充填热绝缘装置C1028-06 用水平功率拉力计法估价瓷砖及其它相同表面的磨擦电系数的试验方法C1032-06 钢丝网抹灰底层C1043-06 使用护热板装置中线电源加热器时稳态热传导特性测量用的加热板温度的测定C1072-06 砌块抗弯粘结强度的测定C1077-06 建筑用混凝土和混凝土集料的实验室测试标准惯例和实验室评定准则C1083-06 弹性泡沫垫圈和密封材料吸水性的试验方法C1088-06 粘土或泥板岩制薄陶面砖C1089-06 离心铸造的预应力混凝土C1093-06 砌块试验方法的鉴定C1094-01(2006) 可移动的挠性绝热覆盖物C1097-06 沥青混凝土混合物用熟石灰C1104/C1104M-00(2006) 测定未覆面矿物纤维绝缘材料蒸汽的吸收率的试验方法C1108-99(2006) 控制电势库仑法测定钚的试验方法C1114-00(2006) 薄加热设备稳态热传导特性的试验方法C1115-06 密实弹性体硅橡胶衬垫和附件C1120-98(2006) 石棉清洗试验方法C1136-06 热绝缘材料用柔性、低渗透蒸汽阻化剂C1141-06 喷浆混凝土用添加剂C1145-06 高级陶瓷术语C1154-06 石棉水泥和纤维水泥术语C1166-06 致密及多孔弹性体衬垫和附件火焰蔓延的试验方法C1170-06 使用振动台测定滚动压实混凝土的稠度和密度的试验方法C1173-06 地下管道系统用挠性过渡管联接件C1177/C1177M-06 用于遮敝的玻璃衬垫石膏基层C1210-06 制定核工业分析化学实验室用测量系统质量控制大纲C1215-92(2006) 核工业用试验方法标准中精密度与及偏倚报告的编写和表达C1217-00(2006) 处理核材料及放射性材料用设备的设计C1222-06 实验室试验水硬水泥的评定C1226-93(2006) 石棉中可溶氯化物的试验方法C1239-06a 报告单轴强度数据和评估高级陶瓷维泊尔分布参数C1245/C1245M-06 测定路碾水硬性压缩混凝土与其它水硬性水泥混合物结合强度的标准试验方法-点负荷试验C1248-06 用连接密封层时多孔衬底染色的标准试验方法C1249-06a 结构件密封剂上光泽用的密封隔热玻璃装置二次密封指南C1257-06 溶剂释放型密封剂加速老化的标准试验方法C1267-06 近距预演金属探测器操作灵敏度设置调整的标准规程C1271-99(2006) 石灰和石灰岩X射线光谱分析标准试验方法C1274-00(2006) 用物理吸收法对高级陶瓷比表面积的标准试验方法C1277-06 防护联接器连接无毂铸铁污水管和配件标准规范C1278/C1278M-06 增强纤维石膏镶板标准规范C1282-00(2006) 用离心光电沉淀法测定高级陶瓷粒径分布的标准试验方法C1283-06 安装粘土烟道衬块的标准操作规范C1289-06 贴面硬质泡沫聚异氰尿酸酯隔热板的标准规范C1290-06 外部隔热HVAC导管用的软玻璃纤维地毯隔热材料的标准规范C1293-06 用测定碱-硅石反应引起的混凝土长度变化对混凝土集料的标准试验方法C1305-06 液体外加防水薄膜的裂缝挖补能力的标准测定方法C1315-06 固化混凝土和密封混凝土液膜性化合物特种性能的标准规范C1341-06 连续纤维增强高级陶瓷合成物弯曲特性的标准试验方法C1355/C1355M-96(2006) 玻璃纤维增强的石膏组合件的技术规范C1364-06 建筑铸石的标准规范C1367-06 最大承载剪切下热应用密封剂的标准试验方法C1368-06 在环境温度下加恒定应力弯曲试验测定整体高级陶瓷裂纹缓慢增长参数的标准试验方法C1384-06a 砌筑用砂浆改性剂技术规范C1393-00a(2006) 管道和罐绝热用的垂直导向矿物质纤维包裹物和覆盖物规范C1396/C1396M-06 石膏灰泥屋顶板规范C1433M-06 涵洞,雨水排放管道和污水管道用的预浇筑加强混凝土箱型制件规范(米制)C1433-06 涵洞,雨水排放管道和污水管道用的预浇筑加强混凝土箱型制件规范C1435/C1435M-06 用震动锤在桶型模具中模压制作滚轮压缩的混凝土标准惯例C1442-06 用人工风化仪器对密封剂进行试验标准惯例C1452-00(2006) 高压加气增强混凝土构件规范C1453-00(2006) 用核级二氧化铀粉末和颗粒点火及氧铀(O/U)原子比法测定铀的试验方法C1461-06 地下和地上用接合排水、废物、通风、污水、卫生及暴雨排放系统用带热塑弹性垫圈的机械连接器的规范C1464-06 弯曲玻璃规范C1465-00(2006) 高温下用恒定应力速度挠曲试验测定高级陶瓷的慢裂增长系数的标准试验方法C1467/C1467M-00(2006) 模制玻璃纤维增强石膏部件安装规范C1468-06 室温下连续纤维增强高级陶瓷过渡厚度抗拉强度试验方法C1470-06 高级陶瓷热性能测试指南C1472-06 确定密封材料接缝宽度时计算运动和其它影响因素的标准指南C1474-00(2006)e1 四极感应耦合等离子质谱法分析核纯级燃料中铀的同位素组分的试验方法C1476-06 感应耦合等离子质谱法分析尿液中锝99试验方法C1477-06 多收集器感应耦合等离子质谱法分析六氟化铀同位素丰度的标准试验方法C1478-06 钢筋混凝土雨水排水结构、管道和支管之间的雨管水道弹性连接件规范C1478M-03(2006) 钢筋混凝土雨水排水结构、管道和支管之间的雨管水道弹性连接件规范(米制)C1481-00(2006) 外部绝缘和精整系统用密接剂使用的标准指南C1485-06 用电辐射热能量源测量露天阁楼地板绝缘材料临界辐射通量的测试方法C1495-06 表面研磨对高级陶瓷抗弯强度影响试验方法C1507-01(2006) 土壤中锶-90放射化学测定的试验方法C1508-01(2006) 用X射线荧光光谱法测定UF-6和硝酸铀酰中溴和氯的含量的标准试验方法C1529-06 生石灰、熟石灰和石灰石的环境用途规范C1532-06 从现有建筑选择,移动,装运石工装配样品指南C1577-06 Standard Specification for Precast Reinforced Concrete Box Sections fo r Culverts, Storm Drains, and Sewers Designed According to AASHTO LRFDC1579-06 Standard Test Method for Evaluating Plastic Shrinkage Cracking of Res trained Fiber Reinforced Concrete (Using a Steel Form Insert)C1587-06 Standard Practice for Preparation of Field Removed Manufactured Masonr y Units and Masonry Specimens for Compressive Strength TestingC1601-06 Standard Test Method for Field Determination of Water Penetration ofMasonry Wall SurfacesC1602/C1602M-06 Standard Specification for Mixing Water Used in the Production of Hy draulic Cement ConcreteC1607-06 Standard Test Method for Determination of "Microwave Safe for Reheati ng" for CeramicwareC1608-06 Standard Test Method for Chemical Shrinkage of Hydraulic Cement Paste C1610/C1610M-06 Standard Test Method for Static Segregation of Self-Consolidating Concrete Using Column TechniqueC1621/C1621M-06 Standard Test Method for Passing Ability of Self-Consolidating Concrete by J-RingC1630-06 Standard Guide for Development of Coverage Charts for Loose-Fill Thermal Building InsulationsC1635-06 Standard Test Method to Evaluate Adhesion/Cohesion Properties of a Se alant at Fixed ExtensionC1636-06a Standard Guide for the Determination of Uranium-232 in Uranium HexafluorideC1637-06 Standard Test Method for the Determination of Impurities in PlutoniumMetal: Acid Digestion and Inductively Coupled Plasma-Mass Spectroscopy (ICP-MS) AnalysisC1638-06 Standard Guide for the Determination of Iodine-129 In Uranium OxideC1644-06 Standard Specification for Resilient Connectors Between Reinforced Conc rete On-Site Wastewater Tanks and PipesC1645-06 Standard Test Method for Freeze-thaw and De-icing Salt Durability of Solid Concrete Interlocking Paving UnitsC1647-06 Standard Practice for Removal of Uranium or Plutonium, or both, forImpurity Assay in Uranium or Plutonium Materials特别声明:1:资料来源于互联网,版权归属原作者2:资料内容属于网络意见,与本账号立场无关3:如有侵权,请告知,立即删除。
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Designation:A966/A966M–96(Reapproved2001)Standard Test Method forMagnetic Particle Examination of Steel Forgings Using Alternating Current1This standard is issued under thefixed designation A966/A966M;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.1.Scope1.1This test method covers a procedure for the magnetic particle examination of steel forgings using alternating current as the power source.The procedure will produce consistent results upon which acceptance standards can be based.This test method does not contain acceptance limits or recommended quality levels.1.2Only alternating50–60cycle current shall be used as the electric power source for any of the magnetizing methods.The ability to detect subsurface discontinuities is very limited when using an alternating power source,and therefore the test surfaces should be in thefinal thermally treated andfinish machined condition.1.3When subsurface indications are sought in forgings, then dc magnetization in accordance with Test Method A275/ A275M should be used.1.4The values stated in either inch-pound units or SI units are to 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 shall be used independently of the bining values from the two systems may result in nonconformance with the specification. Unless the order specifies the applicable“M”specification designation[SI units],the inch-pound units shall be used. 1.5This 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:A275/A275M Test Method for Magnetic Particle Exami-nation of Steel Forgings22.2Other Document:Practice No.SNT-TC-1A,Supplement B—Magnetic Par-ticle Method33.Terminology3.1Definitions:3.1.1(ac)magnetic particle method of examination—a method for detecting discontinuities on the surface in suitably magnetized materials,which employsfinely divided magnetic particles that tend to congregate in regions of leakagefields.3.1.2indication—the visual magnetic particle buildup re-sulting from leakagefields in the magneticfield.3.1.3linear indication—an indication in which the length is at least three times the width.The minimum length of indications to be considered linear shall be1⁄16in.[1.5mm].3.1.4magneticflux—the product of the magnetic induction and the area of a surface(or cross section)when the magnetic induction is uniformly distributed and normal to the plane of the surface.The concept that the magneticfield isflowing along the lines of force suggests that these lines are therefore “flux”lines,and they are called magneticflux.3.1.5nonrelevant indications—indications produced by leakagefields where the conditions causing them are present by accident or part design,or other features of the part having no relation to the damagingflaws being sought.This term signifies that such an indication has no relation to the discontinuities that might constitute defects.4.Basis of Application4.1When in accordance with the requirements of the inquiry,contract,order,or specifications,forgings are to be examined by the magnetic particle method using alternating current;the manufacturer and the supplier shall be in agree-ment concerning the following:4.1.1The locations on the forging that are to be subjected to magnetic particle examination.4.1.2The type,size,number,location,and orientation of indications that are to be considered injurious.1This test method is under the jurisdiction of ASTM Committee A01on Steel, Stainless Steel,and Related Alloys and is the direct responsibility of Subcommittee A01.06on Steel Forgings and Billets.Current edition approved Sept.10,1996.Published December1996. 2Annual Book of ASTM Standards,V ol01.05.3Available from American Society for NonDestructive Testing,1711Arlingate Lane,P.O.Box28518,Columbus,OH43228-0518.1Copyright©ASTM International,100Barr Harbor Drive,PO Box C700,West Conshohocken,PA19428-2959,United States.4.1.3The method of application and type of magnetic particles,demagnetization requirements,and magneticfield strengths.4.1.4Acceptance standards.5.Personnel Requirements5.1Personnel performing the magnetic particle examination in this test method shall be qualified and certified in accordance with a written procedure conforming to Practice No.SNT-TC-1A or another national standard that is acceptable to both the purchaser and supplier.6.Stage of Examination6.1Unless otherwise specified by the purchaser,acceptance examination shall be performed on a forging in thefinal machined surface condition.7.Magnetizing Apparatus7.1A50or60cycle alternating current shall be used.When current is passed through the forging itself,the equipment shall consist of contacting or clamping elements with sufficient surface area and clamping pressure to allow the required current toflow without damaging(burning)the part being examined.7.2Portable electromagnetic alternating current yokes may be used as a magnetizing apparatus.8.Magnetic Particles8.1The inspection medium shall consist offinely divided ferromagnetic particles(which may be coated with afluores-cent material)suspended in a suitable liquid medium or used in dry powder form.9.Surface Preparation9.1The sensitivity of the magnetic particle examination will depend to a considerable extent upon the condition of the surface being examined.While defects may be satisfactorily revealed on shot-blasted or otherwise cleaned forged surfaces, without any further surface treatment,all heat treatment or forging scale must be removed.However to revealfine defects of1⁄8in.[3mm]or less in length,the surfaces to be examined shall be smooth machined to at least a250-µin.[6.35-µm]finish.9.2The surfaces shall be free from grease,oils,or other substances to which the particles may adhere.10.Methods of Magnetization10.1The forging may be magnetized either by passing current through the piece or by inducing a magneticfield by means of a central conductor,by coils,or by yoke.10.1.1Continuous Method—In the continuous method the inspection medium is applied to the surface under examination while the current is stillflowing.The alternating current source generates high amperage current in pulses of up to1s duration. The duration of thisflow shall allow at least three pulses of current,or in the case where machines supply continuous currentflow,a minimum shot of1⁄5to1⁄2s duration should be applied.10.1.2The surge and residual methods are not applicable to this test method.10.2At least two separate examinations shall be carried out on each area.The second examination shall be with the lines of magneticflux approximately perpendicular to those used for thefirst examination in that area.A different means of magnetization may be used for the second examination.Mag-netizing in more than one direction cannot normally be accomplished simultaneously.An exception to the above rule is overall sequential multivector magnetization whereby several magnetizing circuits are provided for sequentially magnetizing a part in multiple directions depending on the locations of the current connectors.By this technique,indications of any orientation can be detected with a single application of magnetic particles.10.3The two general types of magnetization with regard to direction are longitudinal and circular as follows:10.3.1Longitudinal—When a forging is magnetized longi-tudinally,the magneticflux lines are usually parallel to the axis of the piece.A longitudinally magnetized piece always has definite poles,readily detectable by compass or magnetometer. Longitudinal magnetization is usually accomplished by placing the forging within a solenoid,frequently formed by wrapping cable around the piece(Fig.1).For special applications, magnetic yokes can be used(Fig.2).10.3.2Circular—Circular magnetization is obtained by passing a current through the piece(Fig.3)or by induced by passing current through a conductor or conductors threaded through an opening in the piece(Fig.4or Fig.5).By agreement with the purchaser(see10.5.3)localized circular magnetization may be obtained by passing current through local areas by the use of prod-type contacts(Fig.6).10.4The magneticfield is confined almost entirely to the piece and there may be no external manifestation of the magnetized condition.Indications will appear strongest in the direction perpendicular to the direction of the magneticfield.10.5Field Strength—The minimumfield strength that will reveal and permit classification of all objectionable defects shall be used.The maximumfield strengths practical are the ones just below the point at which excessive adherence of the particles begins to occur over the surface being inspected. 10.5.1Coil Magnetization—When coil magnetization is used,the magneticfield strength is directly proportional tothe FIG.1LongitudinalMagnetizationcurrent (ampere-turns if a coil or solenoid is used)and inversely proportional to the thickness of the section being inspected.10.5.1.1Longitudinal Magnetization —For encircling coils (Fig.1),the turns of the coil shall be kept closely together.The field strength decreases as distance from the coil increases and long parts must be magnetized in sections.If the area to be inspected extends beyond 6in.[150mm]on either side of thecoils,the adequacy of the field shall be demonstrated by the use of field indicators (see 10.5.6).(1)Small Forgings —Magnetizing force shall be 35000ampere-turns divided by the sum of 2plus the “length over diameter”ratio of the test part.For example,a part 10in.[250mm]long by 2in.[50mm]in outside diameter has an L/D ratio of 5.Therefore,35000/(2+5)=5000ampere-turns;if a 5-turn coil is used,the current required is 5000/5or 1000A.This formula provides an adequate field strength on small parts having an L/D ratio of 4or greater.For parts having a smaller L/D ratio,adequate field strengths shall be demonstrated by the use of a field indicator (see 10.5.6).The graph in Fig.7may be used to determine the ampere-turns required for each L/D relationship.(2)Large Forgings —For large forgings the magnetizing force shall be in the range from 1200to 4500ampere-turns.A field indicator (see 10.5.6)shall be used to demonstrate the presence of an adequate field strength over the area to be inspected.10.5.1.2Circular Magnetization (Fig.5)—For circular magnetization with through coils,use the current with amper-age as specified in 10.5.2divided by the number of turns in the coil.10.5.2Direct Magnetization —When current is passed di-rectly through the part to be examined,the current shall be between 100and 900A [4and 35A per millimetre]per inch of diameter or cross section (per inch or millimetre of greatest width in a plane at right angles to current flow).ForhollowFIG.2Longitudinal Magnetization,withYokeFIG.3Circular Magnetization,Current Directly ThroughForgingFIG.4Circular Magnetization,Current Through aConductorFIG.5Circular Magnetization,Current Through ConductorsThreaded ThroughForgingFIG.6Circular Magnetization with “Prod”Type ContactElectrodesFIG.7LongitudinalMagnetizationparts this would be wall thickness when cables are clamped to the wall.Suggested current for diameters or sections up to5in. [125mm]are600to900A/inches[25to35A per millimetre]; for diameters or sections between5and10in.[125to250 mm],400to600A/inches[15to25A per millimetre];and100 to400A/inches[4to15A per millimetre]for outside diameters or sections over10in.[250mm].If it is not practical to obtain these current levels for diameters over10in.[250mm],the presence of an adequatefield strength shall be demonstrated using afield indicator.In all other instances the adequacy of the magnetizing force shall be demonstrated by means of afield indicator(see10.5.6).When large parts have been examined by clamping contacts to the wall thickness,the adequacy of the field in the circumferential direction shall also be determined by thefield indicator.10.5.3Prod Magnetization—Since this method may induce arcing or burning at the contact areas,and the inspection is intended to be performed onfinished surfaces,the use of prod magnetization is not permissible without the prior approval of the purchaser.For the same reason magnetic leaches may not be used to introduce current into the part without the prior approval of the purchaser.If the use of prods or magnetic leaches should be permitted,then the following conditions shall apply:10.5.3.1A magnetizing force of75to100A per linear inch [3to4A per millimetre]of prod spacing shall be used for material under3⁄4in.[20mm]thick,and100to125A per linear inch[4to5A per millimetre]of prod spacing shall be used for material3⁄4in.[20mm]and over in thickness.10.5.3.2Prod spacing shall be a maximum of8in.[200 mm].Prod spacing less than3in.[75mm]usually is not feasible due to banding of the particles around the prods.Care shall be taken to prevent local overheating or burning of the surface being examined.Steel-or aluminum-tipped prods or copper-brush-type prods rather than solid copper-tipped prods are recommended where the magnetizing voltage is over25V open circuit(bad contact)in order to avoid copper penetration. Permanent magnetic leeches may be used as a pair or in conjunction with a prod.Leeches should not be used in excess of1500A because loss of magnetization occurs.10.5.3.3A remote control switch,which may be built into the prod handles,shall be provided to permit the current to be turned on after the prods have been properly positioned and to turn off before the prods are removed in order to prevent arcing.10.5.3.4Examination Coverage—Examinations shall be conducted with sufficient overlap to ensure100%coverage at the established sensitivity.10.5.3.5Direction of Magnetization—At least two separate examinations shall be carried out on each area.The prods shall be placed so that the lines offlux during one examination are approximately perpendicular to the lines offlux during the other.10.5.4Indirect circular magnetization of forgings may be accomplished by the use of a central conductor as shown in Fig.4.The recommended current level is100to125A per inch [4to5A per millimetre]of bore diameter.Alternatively afield indicator may be used to establish the adequacy of the magneticfield(see10.5.6).10.5.5An ammeter shall be used to measure the specified or agreed upon current.10.5.6A magnetic particlefield indicator as shown in Fig.8 shall be used to establish the adequacy of the magneticfield. FIG.8Magnetic Particle FieldIndicatorThe magnetizing current shall be sufficient to develop the pattern in the indicator clearly.10.5.6.1The magnetic particlefield indicator shall be used by positioning it copper side up on the surface of the forging being examined,while applying the magnetizing current and the particles used in the examination.Suitable magneticfield strength is indicated when thefield indicator lines at45°and 90°to the applied magneticfield are outlined by magnetic particles.10.5.7Yoke Magnetization—When ac electromagnetic yokes are used to magnetize a local area,a longitudinalfield is formed between the poles.10.5.7.1Equipment—Alternating current yokes may be of thefixed or articulated leg types.10.5.7.2Yoke Qualification—Alternating current electro-magnetic yokes shall have a minimum lifting power of10lbf [45N]at a pole spacing of6in.[150mm].10.5.7.3Direction of Magnetization—At least two separate examinations shall be carried out on each area.In the second examination,the lines of magneticflux shall be approximately perpendicular to those used for thefirst examination in that area.10.5.7.4Pole Spacing—Pole spacing shall be limited to a maximum of6in.[150mm].10.5.7.5Examination Area—The examination area shall be limited to a maximum distance of1⁄4of the pole spacing on either side of a line joining the two poles.Overlapping of pole spacing shall be a minimum of1in.[25mm].11.Application of Particles11.1Visible Light—Except for thefluorescent method,the intensity of the visible light at the surface of the part under examination shall be maintained at a minimum of100fc[1000 lux].11.2While the forging is properly magnetized,the particles may be applied by one of the following methods:11.2.1Dry Method—In the dry method the particles shall be applied from a hand shaker(such as a shaker can),mechanical shaker,bulb blower,or mechanical blower.The use of the shaker shall be limited toflat and nearly horizontal surfaces, whereas the blowers may be used on vertical or overhead surfaces.The powder shall be applied evenly on the surface of the forging.The color of the dry powder should be chosen to provide suitable contrast.Too much powder is disadvantageous as it masks the patterns.11.2.2Care shall be exercised in blowing off excess powder so as not to disturb the indications.11.3Wet Methods:11.3.1Oil—The material for the wet method is usually supplied in concentrate form,and the inspection medium shall be prepared by mixing the concentrate with a suitable light oil. The liquid recommended for the inspection vehicle is a well refined,light,petroleum distillate having a relatively highflash point.The approximate characteristics of a suitable liquid are as follows:API gravity,°46Viscosity,SUS31Flash point(Tag Open Cup),°F[°C]155to175[65to80]Initial boiling point,°F[°C]390[200]End point,°F[°C]490[255]Color,Saybolt25A suspension of from1to2%solid material by volume shall generally be used.The inspection medium shall beflowed or sprayed over the area being inspected.The color of the particles should be chosen to provide suitable contrast.11.3.2Water—Magnetic particles suspended in clean water, or clean water with suitable wetting agents may be used. Suspension of from2to21⁄2%solid magnetic material shall generally be used.11.4Fluorescent Method—Fluorescent magnetic particle inspection is a variation of the wet method.A concentrate, similar to that used in the wet method,shall be used,except that the magnetic particle shall be coated with material that fluoresces when activated by“black”light.11.4.1The same procedure specified when mixing the wet medium shall be followed,except that the suspension shall contain0.1to0.7%of solid material by volume when petroleum distillate or water is used.11.4.2The vehicle shall not befluorescent.11.4.3Whenfluorescent particles are used,the examination shall be conducted in a darkened area where the maximum white light permitted shall be2fc.Black light shall be used, and the light intensity at the examination surface,15in.[375 mm]from the face of the light source lensfilter shall be not less than1000µw/cm2when measured with a suitable black light meter.11.4.4The black light shall emit ultraviolet radiation of a wavelength within the range from3300to3900Å.The particles shall emit a brightfluorescence when subjected to this light.The bulb shall be allowed to warm up for a minimum of 5min prior to its use in examination.12.Demagnetization12.1Unless otherwise specified parts shall be sufficiently demagnetized after examination so that the residualfield will not interfere with subsequent machining or welding operations or the intended use of the part,or that leakagefields will not occur in areas of dynamic contact surfaces.12.2Demagnetization may be accomplished by decreasing the magnetizing current in small steps,or continuously to a very low value.Alternatively the part may be withdrawn slowly from the magnetizingfield.Demagnetization shall be verified by the use of a suitable magneticfield indicator. 13.Interpretation and Evaluation of Indications13.1Test Method A275/A275M describes in some detail the interpretation and evaluation of magnetic particle indica-tions.14.Report of Indications14.1Based on the agreement between manufacturer and purchaser,or on the acceptance criteria of an applicable material specification,the size,number,and location of all ratable indications shall be recorded in the inspection report, using sketches if necessary.Methods for the permanent record-ing of magnetic particle indications are included in Test Method A275/A275M.15.Acceptance Standards15.1The standards for acceptance of magnetic particle indications detected by magnetic particle examination shall be as specified in the applicable ASTM product specification, contract,or order.16.Keywords16.1ac magnetization;circular magnetization;dry method;ferritic steel forgings;fluorescent method;longitudi-nal magnetization;surfaceflaw detection;wet methodASTM 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().。