ASTM_A536_球墨铸铁(2004中文)

低温球墨铸铁标准(一)低温球墨铸铁标准介绍•低温球墨铸铁是一种高强度、高韧性的铸铁材料。

•它具有优异的低温抗冲击性能和耐磨性能。

•低温球墨铸铁广泛应用于各个行业，如能源、交通、机械制造等。

标准分类•标准主要分为两大类：国内标准和国际标准。

1.国内标准包括：GB/T 3190、GB/T 729、GB/T 1348等。

2.国际标准包括：ISO 1083、ASTM A536等。

标准内容1.化学成分：–要求严格控制碳含量、硅含量、磷含量等元素的含量。

–化学成分的控制会直接影响低温球墨铸铁的力学性能。

2.机械性能：–包括抗拉强度、屈服强度、伸长率等指标。

–标准规定了不同等级的低温球墨铸铁的最低机械性能要求。

3.金相组织：–标准要求低温球墨铸铁的石墨形态为球状，石墨球的数量密度和分布均匀性也有具体规定。

4.冲击性能：–包括低温冲击韧性和热处理后的冲击韧性。

–标准规定了低温球墨铸铁的最低冲击韧性要求。

5.加工工艺和热处理：–标准要求低温球墨铸铁在加工过程中应遵守一定的工艺要求，如浇注温度、冷却速度等。

–热处理过程对低温球墨铸铁的组织和性能具有重要影响，标准也对热处理工艺进行了规定。

应用案例•低温球墨铸铁通常用于制造耐低温零部件，如低温阀门、低温泵体等。

•在石油、天然气、化工等行业中，低温球墨铸铁也被广泛应用于管道和设备的制造。

结论•低温球墨铸铁标准规定了材料的化学成分、机械性能、金相组织、冲击性能和加工工艺要求。

•遵循标准可以确保低温球墨铸铁的质量和性能稳定，保证其在各个行业的应用效果。

•进一步研究和完善低温球墨铸铁标准对促进材料的发展和创新具有重要意义。

球墨铸铁管标准简介球墨铸铁管是一种具有优异性能的管材，它由铸铁铸造而成，具有高强度、高耐腐蚀性和耐压性能。

它广泛应用于给水、排水、天然气和工业管道等领域。

为了确保球墨铸铁管的质量和使用效果，国际上制定了一系列的标准，用于指导球墨铸铁管的生产、加工和应用。

主要标准以下是一些常见的球墨铸铁管标准：1.ISO 2531：这是国际标准组织（ISO）制定的球墨铸铁管的标准。

该标准规定了球墨铸铁管的尺寸、力学性能、耐腐蚀性能、涂覆和保护，以及试验方法等方面的要求。

2.EN 545：这是欧洲标准（EN）制定的球墨铸铁管的标准。

该标准涵盖了球墨铸铁管的材料、尺寸、力学性能、涂覆和保护，以及试验方法等方面的要求。

3.GB/T 13295：这是中国国家标准（GB）制定的球墨铸铁管的标准。

该标准规定了球墨铸铁管的分类、材料、尺寸、力学性能、耐腐蚀性能、涂覆和保护，以及试验方法等方面的要求。

4.ASTM A536：这是美国材料与试验协会（ASTM）制定的球墨铸铁管的标准。

该标准涵盖了球墨铸铁管的化学成分、机械性能、熔化金属温度，以及金属检验和其他性能测试等方面的要求。

标准内容球墨铸铁管的标准内容通常包括以下几个方面：1.材料要求：包括球墨铸铁管所使用的铸铁材料的化学成分、机械性能和冷却曲线等要求。

这些要求将直接影响球墨铸铁管的强度、耐腐蚀性和可靠性。

2.尺寸要求：包括球墨铸铁管的外径、壁厚、长度和重量等要求。

这些要求将确保球墨铸铁管的适配性和安装便利性。

3.力学性能要求：包括球墨铸铁管的抗张强度、屈服强度、伸长率和硬度等要求。

这些要求将确保球墨铸铁管在正常使用条件下的安全性和可靠性。

4.耐腐蚀性能要求：包括球墨铸铁管的耐腐蚀涂层、耐腐蚀性能和耐化学腐蚀性能等要求。

这些要求将确保球墨铸铁管在各种腐蚀环境下的可靠性和使用寿命。

5.试验方法：包括球墨铸铁管的力学性能试验、耐腐蚀性能试验和涂层质量试验等方法。

这些方法将用于评估球墨铸铁管的质量和性能。

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。

ASTM标准‎的中文版本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NPS‎1/4～2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N‎P S2～24的蝶阀外‎形尺寸标准规‎范ASTM F1565-2000蒸汽‎用减压阀规范‎。

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。

Designation:A536–84(Reapproved2004)Standard Specification forDuctile Iron Castings1This standard is issued under thefixed designation A536;the number immediately following the designation indicates the year of original adoption or,in the case of revision,the year of last revision.A number in parentheses indicates the year of last reapproval.A superscript epsilon(e)indicates an editorial change since the last revision or reapproval.This standard has been approved for use by agencies of the Department of Defense.1.Scope1.1This specification covers castings made of ductile iron, also known as spheroidal or nodular iron,that is described as cast iron with the graphite substantially spheroidal in shape and essentially free of other forms of graphite,as defined in Terminology A644.1.2The values stated in inch-pound units are to be regarded as the standard.1.3No precise quantitative relationship can be stated be-tween the properties of the iron in various locations of the same casting or between the properties of castings and those of a test specimen cast from the same iron(see Appendix X1).2.Referenced Documents2.1ASTM Standards:2A370Test Methods and Definitions for Mechanical Testing of Steel ProductsA644Terminology Relating to Iron CastingsA732/A732M Specification for Castings,Investment, Carbon and Low Alloy Steel for General Application,and Cobalt Alloy for High Strength at Elevated Temperatures E8Test Methods for Tension Testing of Metallic Materials 2.2Military Standard:3MIL-STD-129Marking for Shipment and Storage3.Ordering Information3.1Orders for material to this specification shall include the following information:3.1.1ASTM designation,3.1.2Grade of ductile iron required(see Table1,and Sections4and9),3.1.3Special properties,if required(see Section7),3.1.4If a different number of samples are required(see Section10),3.1.5Certification,if required(see Section14),and3.1.6Special preparation for delivery,if required(see Sec-tion15).4.Tensile Requirements4.1The iron represented by the test specimens shall con-form to the requirements as to tensile properties presented in Tables1and2.The irons listed in Table1cover those in general use,while those listed in Table2are used for special applications(such as pipes,fittings,etc.).4.2The yield strength shall be determined at0.2%offset by the offset method(see Test Methods E8).Other methods may be used by mutual consent of the manufacturer and purchaser.5.Heat Treatment5.1The60-40-18grade will normally require a full ferritiz-ing anneal.The120-90-02and the100-70-03grades generally require a quench and temper or a normalize and temper,or an isothermal heat treatment.The other two grades can be met either as-cast or by heat treatment.Ductile iron,which is heat treated by quenching to martensite and tempering,may have substantially lower fatigue strength than as-cast material of the same hardness.6.Test Coupons6.1The separately cast test coupons from which the tension test specimens are machined shall be cast to the size and shape shown in Fig.1or Fig.2.A modified keel block cast from the mold shown in Fig.3may be substituted for the1-in.Y-block or the1-in.keel block.The test coupons shall be cast in open molds made of suitable core sand having a minimum wall thickness of11⁄2in.(38mm)for the1⁄2-in.(12.5mm)and1-in. (25-mm)sizes and3in.(75mm)for the3-in.size.The coupons shall be left in the mold until they have cooled to a black color(approximately900°F(482°C)or less).The size of coupon cast to represent the casting shall be at the option of the purchaser.In case no option is expressed,the manufacturer shall make the choice.1This specification is under the jurisdiction of the ASTM Committee A04onCastings and is the direct responsibility of Subcommittee A04.02on Malleable andDuctile Iron Castings.Current edition approved Oct.1,2004.Published October2004.Originallyapproved st previous edition approved in1999as A536–84(1999)e1.2For referenced ASTM standards,visit the ASTM website,,orcontact ASTM Customer Service at service@.For Annual Book of ASTMStandards volume information,refer to the standard’s Document Summary page onthe ASTM website.3Available from Standardization Documents Order Desk,DODSSP,Bldg.4,Section D,700Robbins Ave.,Philadelphia,PA19111-50981Copyright©ASTM International,100Barr Harbor Drive,PO Box C700,West Conshohocken,PA19428-2959,United States.6.2When investment castings are made to this specification,the manufacturer may use test specimens cast to size incorpo-rated in the mold with the castings,or separately cast to size using the same type of mold and the same thermal conditions that are used to produce the castings.These test specimens shall be made to the dimensions shown in Fig.1of Specifica-tion A 732/A 732M or Figs.5and 6of Test Methods and Definitions A 370.6.3The manufacturer may use separately cast test coupons or test specimens cut from castings when castings made to this specification are nodularized or inoculated in the mold.Sepa-rately cast test coupons shall have a chemistry that is repre-sentative of castings produced from the ladle poured and a cooling rate equivalent to that obtained with the test molds shown in Figs.1and 2,Figs.4-6,or Appendix X2.The size (cooling rate)of the coupon chosen to represent the casting should be decided by the purchaser.If test coupon size is notspecified,the manufacturer shall make the choice.When test bars will be cut from castings,test bar location shall be agreed on by the purchaser and manufacturer and indicated on the casting drawing.The manufacturer shall maintain sufficient controls and control documentation to assure the purchaser that properties determined from test coupons or test bars are representative of castings shipped.6.4The test coupons shall be poured from the same ladle or heat as the castings they represent.6.5Test coupons shall be subjected to the same thermal treatment as the castings they represent.7.Special Requirements7.1When specified in the contract or purchase order,castings shall meet special requirements as to hardness,chemi-cal composition,microstructure,pressure tightness,radio-graphic soundness,magnetic particle inspection dimensions,and surface finish.8.Workmanship,Finish,and Appearance8.1The castings shall be smooth,free of injurious defects,and shall conform substantially to the dimensions of the drawing or pattern supplied by the purchaser.8.2Castings shall not have chilled corners or center chill in areas to be machined.TABLE 1Tensile RequirementsGrade 60-40-18Grade 65-45-12Grade 80-55-06Grade 100-70-03Grade 120-90-02Tensile strength,min,psi 600006500080000100000120000Tensile strength,min,MPa 414448552689827Yield strength,min,psi 4000045000550007000090000Yield strength,min,MPa276310379483621Elongation in 2in.or 50mm,min,%18126.03.02.0TABLE 2Tensile Requirements for Special ApplicationsGrade 60-42-10Grade 70-50-05Grade 80-60-03Tensile strength,min,psi Tensile strength,min,MPa 600004157000048580000555Yield strength,min,psi Yield strength,min,MPa420002905000034560000415Elongationin 2in.or 50mm,min,%1053Metric Equivalents in.mm in.mm1⁄2112.725.411⁄221⁄238.163.5N OTE —The length of the keel block shall be6in.(152mm).FIG.1Keel Block for Test CouponsDimen-sions“Y”Block SizeFor Castings of Thickness Less Than 1⁄2in.(13mm)For Castings of Thickness1⁄2in.(13mm)to 11⁄2in.(38mm)For Castings of Thickness of 11⁄2in.(38mm)and Over in.mm in.mm in.mm A 1⁄213125375B 15⁄84021⁄8545125C 2503754100D 410061508200E717571757175approxapproxapproxapproxapproxapproxFIG.2Y-Blocks for Test CouponsFIG.3Mold for Modified Keel BlockFIG.4Sectioning Procedure for Y-Blocks9.Chemical Requirements9.1It is the intent of this specification to subordinate chemical composition to mechanical properties;however,any chemical requirements may be specified by agreement between the manufacturer and the purchaser.10.Number of Tests and Retests10.1The number of representative coupons poured and tested shall be established by the manufacturer,unless other-wise agreed upon with the purchaser.10.2In the case of the Y-block,the section shall be cut from the block as shown in Fig.4.If any tension test specimen shows obvious defects,another may be cut from the same test block or from another test block representing the same metal.11.Tension Test Specimen11.1The standard round tension test specimen with a 2-in.or 50-mm gage length shown in Fig.5shall be used,except when the ½-in.(12.7-mm)Y-block coupon is used.In this case,either of the test specimens shown in Fig.6shall be satisfac-tory.12.Responsibility for Inspection12.1Unless otherwise specified in the contract or purchase order,the supplier is responsible for the performance of all inspection requirements as specified herein.Except as other-wise specified in the contract or order,the supplier may use his own or any other facilities suitable for the performance of the inspection requirements specified herein,unless disapproved by the purchaser.The purchaser reserves the right to perform any of the inspections set forth in the specification where such inspections are deemed necessary to assure supplies and services conform to prescribed requirements.13.Identification Marking13.1When size permits,each casting shall be identified by the part or pattern number in raised numerals.Location of marking shall be as shown on the applicable drawing.14.Certification14.1When agreed upon in writing by the purchaser and the seller,a certification shall be made the basis of acceptance of the material.This shall consist of a copy of the manufacturer’s test report or a statement by the seller,accompanied by a copy of the test results,that the material has been sampled,tested,and inspected in accordance with provisions of this specifica-tion.Each certification so furnished shall be signed by an authorized agent of the seller or manufacturer.15.Preparation for Delivery15.1Unless otherwise specified in the contract or purchase order,cleaning,drying,preservation,and packaging of casting shall be in accordance with manufacturer’s commercial prac-tice.Packing and marking shall also be adequate to ensure acceptance and safe delivery by the carrier for the mode of transportation employed.15.2Government Procurement —When specified in the con-tract or purchase order marking for shipment shall be in accordance with the requirements of MIL-STD-129.16.Keywords16.1casting;ductile iron;modular iron;spheroidalgraphiteMetric Equivalents in.mm in.mm0.0050.130.5012.70.10 2.5250.81⁄8 3.23⁄89.521⁄457.2N OTE —The gage length and fillets shall be as shown but the ends may be of any shape to fit the holders of the testing machine in such a way that the load shall be axial.The reduced section shall have a gradual taper from the ends toward the center,with the ends 0.003to 0.005in.(0.08to 0.13mm)larger in diameter than the center.FIG.5Standard Round Tension Test Specimen with 2-in.or50-mm GageLengthMetric Equivalentsin.mm in.mm 0.0050.13 1.025.40.0070.1811⁄431.80.252 6.40 1.435.60.3579.0713⁄444.4N OTE —If desired,the length of the reduced section may be increased to accommodate an extensometer.FIG.6Examples of Small-Size Specimens Proportional toStandard 1⁄2-in.(12.7-mm)RoundSpecimenAPPENDIXES(Nonmandatory Information)X1.MECHANICAL PROPERTIES OF CASTINGSX1.1The mechanical properties of iron castings are influ-enced by the cooling rate during and after solidification,by chemical composition,by heat treatment,by the design and nature of the mold,by the location and effectiveness of gates and risers,and by certain other factors.X1.2The cooling rate in the mold and,therefore,the properties developed in any particular section are influenced by the presence of cores,chills and chaplets,changes in section thickness,and the existence of bosses,projections,and inter-sections,such as junctions of ribs and bosses.Because of the interactions of these factors,no precise quantitative relation-ship can be stated between the properties of the iron in various locations of the same casting or between the properties of a casting and those of a test specimen cast from the same iron. When such a relationship is important and must be known for a specific application,it may be more closely ascertained by appropriate experimentation.X1.3When reliable information is unavailable on the relationship between properties in a casting and those in a separately cast test specimen,and where experimentation would be unfeasible,the size of the test casting should be so selected as to approximate the cooling rate of the main or controlling section of the casting.X2.Y-BLOCK SELECTIONX2.1As a general guide for selection of the proper Y-block, the tabulation in Table X2.1,based on cooling rates,shows,for various test coupons,the equivalent geometric shapes with variousdimensions.ASTM International takes no position respecting the validity of any patent rights asserted in connection with any item mentioned in this ers of this standard are expressly advised that determination of the validity of any such patent rights,and the risk of infringement of such rights,are entirely their own responsibility.This standard is subject to revision at any time by the responsible technical committee and must be reviewed every five years and if not revised,either reapproved or withdrawn.Your comments are invited either for revision of this standard or for additional standards and should be addressed to ASTM International Headquarters.Your comments will receive careful consideration at a meeting of the responsible technical committee,which you may attend.If you feel that your comments have not received a fair hearing you should make your views known to the ASTM Committee on Standards,at the address shown below.This standard is copyrighted by ASTM International,100Barr Harbor Drive,PO Box C700,West Conshohocken,PA 19428-2959,United States.Individual reprints (single or multiple copies)of this standard may be obtained by contacting ASTM at the above address or at 610-832-9585(phone),610-832-9555(fax),or service@ (e-mail);or through the ASTM website ().TABLE X2.1Equivalent Geometric Shapes Correspondingto Y-BlocksY-Block Size,in.(mm)Infinite Plate Thickness,in.(mm)Round Diameter,in.(mm)Cube Edge,in.(mm)1⁄2(12.7)0.5(12.7) 1.2(30.5)1.75(44.4)1(25.4)0.9(22.9) 1.75(44.4) 2.75(69.8)3(76.2)1.6(40.6) 3.1(78.7) 4.8(121.9)。

名称：A536-84（2004年重新认可）球墨铸铁件标准规范1. 应用范围1.1 本规范适用于球墨铸铁件。

球墨铸铁为含有完全球状、而不含其他形状石墨的铸铁，见ASTM A644术语定义。

1.2 以英寸和磅为标准单位。

1.3 在同一铸件的不同位置、同一铁液浇铸的铸件和测试试样的性能之间没有精确的数量关系（见附录X1）。

2. 参考文件2.1 ASTM标准A370 钢制品机械性能测试的试验方法和定义A644 铸铁件相关术语A732/A732M 一般应用碳素和低合金钢、高温高强度钴合金熔模铸件技术规范E8 金属材料拉伸测试试验方法2.2 军用标准MIL-STD-129 发货和储存标记方法3. 定购信息3.1 根据本规范定购材料应该包括下列信息：3.1.1 ASTM名称，3.1.2 所需的球墨铸铁牌号（见表1和第4节、第9节），3.1.3 如果需要，其他特殊性能（见第7节），3.1.4 是否需要不同数目的试样（见第10节），3.1.5 如果需要，需提供保证书（见第14节）和3.1.6 如果需要，其他的交付物（见第15节）。

4. 拉伸性能要求4.1 测试试样所代表的铸铁应该符合表1和2中的拉伸性能要求。

表1中为一般用途的铸铁，而表2中的铸铁用于特殊应用（例如管子、接头配件等）。

4.2 屈服强度应该在0.2％偏移量时确定（见测试方法E8）。

其他的方法可以在生产商和购买方相互达成一致后使用。

5. 热处理5.1 牌号60-40-18通常需要完全铁素体化退火。

牌号120-90-02和100-70-03一般需要淬火回火或正火回火或等温热处理。

其他牌号可以铸态或热处理状态交付。

经过淬火到马氏体再回火热处理的球墨铸铁比相同硬度的铸态材料有低得多的疲劳强度。

6. 测试试样6.1 用来机加工成拉伸测试试样的单铸测试试块应该铸造成图1和图2指定的尺寸和形状。

由图3所示的模具铸造的改良龙骨型铸锭可以替代1英寸的Y型铸锭或1英寸的龙骨型铸锭。

名称：A536-84（2004年重新认可）球墨铸铁件标准规范　1. 应用范围1.1 本规范适用于球墨铸铁件。

球墨铸铁为含有完全球状、而不含其他形状石墨的铸铁，见ASTM A644术语定义。

1.2 以英寸和磅为标准单位。

1.3 在同一铸件的不同位置、同一铁液浇铸的铸件和测试试样的性能之间没有精确的数量关系（见附录X1）。

2. 参考文件2.1 ASTM标准A370 钢制品机械性能测试的试验方法和定义A644 铸铁件相关术语A732/A732M 一般应用碳素和低合金钢、高温高强度钴合金熔模铸件技术规范E8 金属材料拉伸测试试验方法2.2 军用标准MIL-STD-129 发货和储存标记方法3. 定购信息3.1 根据本规范定购材料应该包括下列信息：3.1.1 ASTM名称，3.1.2 所需的球墨铸铁牌号（见表1和第4节、第9节），3.1.3 如果需要，其他特殊性能（见第7节），3.1.4 是否需要不同数目的试样（见第10节），3.1.5 如果需要，需提供保证书（见第14节）和3.1.6 如果需要，其他的交付物（见第15节）。

4. 拉伸性能要求4.1 测试试样所代表的铸铁应该符合表1和2中的拉伸性能要求。

表1中为一般用途的铸铁，而表2中的铸铁用于特殊应用（例如管子、接头配件等）。

4.2 屈服强度应该在0.2％偏移量时确定（见测试方法E8）。

其他的方法可以在生产商和购买方相互达成一致后使用。

5. 热处理5.1 牌号60-40-18通常需要完全铁素体化退火。

牌号120-90-02和100-70-03一般需要淬火回火或正火回火或等温热处理。

其他牌号可以铸态或热处理状态交付。

经过淬火到马氏体再回火热处理的球墨铸铁比相同硬度的铸态材料有低得多的疲劳强度。

6. 测试试样6.1 用来机加工成拉伸测试试样的单铸测试试块应该铸造成图1和图2指定的尺寸和形状。

由图3所示的模具铸造的改良龙骨型铸锭可以替代1英寸的Y型铸锭或1英寸的龙骨型铸锭。

SAE-J434-2004(标准参考)翻译1 范围该SAE标准涵盖了应用于汽车球墨铸铁铸件和相关的行业的铸铁试件的金相组织和最低机械性能要求。

铸件需详细说明是铸态或热处理状态。

如果铸件需热处理，需获得客户的批准。

本附录提供了在化学成分，显微组织和力学性能，铸造性能等方面面信息以及为特定条件服务的其他信息。

在此标准的SI单位是磅2.2参考文献2.1 相关出版物The following publications form a part of the specification to the extent specified herein. Unless otherwise indicated, the latest revision of SAE publications shall apply2.1.1 ASTM 国际出版物Available from ASTM INTERNATIONAL, 100 Barr Harbor Drive, West Conshohocken, PA 19428-2959ASTM E10 –-Standard Test Method for Brinell Hardness of Metallic MaterialsASTM E23—Standard Test Methods forNotched Bar Impact Testing of Metallic MaterialsASTM E111—Standard Test Method for Young's Modulus, Tangent Modulus and Chord ModulusASTM A247—Standard Test Method for Evaluation the Microstructure of Graphite in Iron CastingsASTM A536—Standard Specification for Ductile Iron CastingsSTP-455—Gray, Ductile, and Malleable Iron Castings Current Capabilities (out-of-print)2.1.2其他出版物Metals Handbook, Vol. 1, 2, and 5, 8th Edition, American Society for Metals, Metals Park, OH Gray and Ductile Iron Castings Handbook, Gray and Ductile Iron Founder Society, Cleveland, OH H. D. Angus, Physical Engineering Properties of Cast Iron, British Cast Iron Research Association, Birmingham, England3.3 牌号机械性能和冶金描述如表1所示。

球墨铸铁标准球墨铸铁是一种具有高强度、高韧性和良好耐腐蚀性能的材料，广泛应用于各种机械设备、建筑和市政工程等领域。

为了确保球墨铸铁产品的质量，各国都制定了相关的标准。

本文将介绍常见的球墨铸铁标准。

1. 国际标准1.1 ISO 1083: Spheroidal graphite cast ironsISO 1083是国际标准化组织（ISO）制定的球墨铸铁标准。

该标准对球墨铸铁的化学成分、机械性能和其他要求进行了规定。

其中包括球墨铸铁的各类级别、硬度要求、拉伸强度、冲击韧性等。

1.2 ISO 185: Grey cast ironsISO 185是ISO制定的灰铸铁标准，其中也包含了一些对球墨铸铁的要求。

该标准对灰铸铁和球墨铸铁的组织、力学性能、化学成分等进行了规定，并提供了一些有关材料检测的方法。

2. 欧洲标准2.1 EN 1563: Founding - Spheroidal graphite cast ironsEN 1563是欧洲标准化组织（CEN）制定的球墨铸铁标准。

该标准规定了球墨铸铁的材料级别、化学成分、机械性能和质量检测方法。

同时，该标准还分别对可用于不同工程领域的球墨铸铁进行了分类和要求。

2.2 EN 1561: Founding - Grey cast ironsEN 1561是CEN制定的灰铸铁标准，同样也包含了对球墨铸铁的一些要求。

该标准对灰铸铁和球墨铸铁的化学成分、机械性能、检验方法等进行了规定，并提供了不同环境条件下的使用温度范围。

3. 美国标准3.1 ASTM A536: Standard Specification for Ductile Iron CastingsASTM A536是美国材料与试验协会（ASTM）制定的球墨铸铁标准。

该标准覆盖了球墨铸铁的材料分类、化学成分、机械性能、试验方法等。

其中也对球墨铸铁的各类级别、硬度要求、拉伸强度等进行了规定。

3.2 ASTM A48: Standard Specification for Gray Iron CastingsASTM A48是ASTM制定的灰铸铁标准，其中也包含了对球墨铸铁的一些要求。

ASTM标准的中文版本ASTM标准的中文版本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。

中外铸铁材料牌号对照铸铁是一种重要的工程材料，广泛应用于汽车、机械、建筑和电力领域等。

而在全球范围内，各国都有不同的铸铁材料标准和牌号体系。

本文将为大家介绍中外铸铁材料常见牌号对照关系。

中国国标（GB）是中国大陆地区常见的铸铁材料标准，而国际上常用的则是美国材料与试验协会（ASTM）和国际铸造联合会（ISO）的标准。

首先，我们来看一些常见的ASTM和GB铸铁材料牌号对照关系。

1.ASTMA48和GB/T9439ASTM A48是美国的铸铁标准，分为三个级别：Class 20、Class 30和Class 40。

相应的中国国标为GB/T 9439，分别对应HT150、HT200和HT250。

2.ASTMA536和GB1348ASTMA536标准适用于球墨铸铁，常见的牌号有65-45-12、80-55-06和100-70-03、GB1348是中国国标，分别对应QT400-15、QT450-10和QT500-73.ASTMA48和GB/T7175ASTM A48中的Class 30相当于GB/T 7175的HT300，而Class 35对应HT350。

4.ASTMA319和GB/T7196ASTMA319主要适用于精密铸造，常见的牌号有A319.0、A319.1和A319.2、相应的中国国标牌号为ZL101、ZL102和ZL103接下来，我们来看一些ISO和GB铸铁材料牌号对照关系。

1.ISO185和GB/T9439ISO 185是国际标准组织发布的铸铁标准，分为三个级别：Grade 150、Grade 200和Grade 250。

相应的中国国标是GB/T 9439，对应HT150、HT200和HT250。

2.ISO1083和GB9438ISO1083标准适用于球墨铸铁，常见的牌号有400-15、450-10和500-7、相应的中国国标是GB9438，对应QT400-15、QT450-10和QT500-73.ISO6892和GB/T8263ISO6892是国际标准组织发布的精密铸造标准，常见的牌号有GJL-100、GJL-150和GJL-200。

Designation:A536–84(Reapproved2004)Standard Specification forDuctile Iron Castings1This standard is issued under thefixed designation A536;the number immediately following the designation indicates the year of original adoption or,in the case of revision,the year of last revision.A number in parentheses indicates the year of last reapproval.A superscript epsilon(e)indicates an editorial change since the last revision or reapproval.This standard has been approved for use by agencies of the Department of Defense.1.Scope1.1This specification covers castings made of ductile iron, also known as spheroidal or nodular iron,that is described as cast iron with the graphite substantially spheroidal in shape and essentially free of other forms of graphite,as defined in Terminology A644.1.2The values stated in inch-pound units are to be regarded as the standard.1.3No precise quantitative relationship can be stated be-tween the properties of the iron in various locations of the same casting or between the properties of castings and those of a test specimen cast from the same iron(see Appendix X1).2.Referenced Documents2.1ASTM Standards:2A370Test Methods and Definitions for Mechanical Testing of Steel ProductsA644Terminology Relating to Iron CastingsA732/A732M Specification for Castings,Investment, Carbon and Low Alloy Steel for General Application,and Cobalt Alloy for High Strength at Elevated Temperatures E8Test Methods for Tension Testing of Metallic Materials 2.2Military Standard:3MIL-STD-129Marking for Shipment and Storage3.Ordering Information3.1Orders for material to this specification shall include the following information:3.1.1ASTM designation,3.1.2Grade of ductile iron required(see Table1,and Sections4and9),3.1.3Special properties,if required(see Section7),3.1.4If a different number of samples are required(see Section10),3.1.5Certification,if required(see Section14),and3.1.6Special preparation for delivery,if required(see Sec-tion15).4.Tensile Requirements4.1The iron represented by the test specimens shall con-form to the requirements as to tensile properties presented in Tables1and2.The irons listed in Table1cover those in general use,while those listed in Table2are used for special applications(such as pipes,fittings,etc.).4.2The yield strength shall be determined at0.2%offset by the offset method(see Test Methods E8).Other methods may be used by mutual consent of the manufacturer and purchaser.5.Heat Treatment5.1The60-40-18grade will normally require a full ferritiz-ing anneal.The120-90-02and the100-70-03grades generally require a quench and temper or a normalize and temper,or an isothermal heat treatment.The other two grades can be met either as-cast or by heat treatment.Ductile iron,which is heat treated by quenching to martensite and tempering,may have substantially lower fatigue strength than as-cast material of the same hardness.6.Test Coupons6.1The separately cast test coupons from which the tension test specimens are machined shall be cast to the size and shape shown in Fig.1or Fig.2.A modified keel block cast from the mold shown in Fig.3may be substituted for the1-in.Y-block or the1-in.keel block.The test coupons shall be cast in open molds made of suitable core sand having a minimum wall thickness of11⁄2in.(38mm)for the1⁄2-in.(12.5mm)and1-in. (25-mm)sizes and3in.(75mm)for the3-in.size.The coupons shall be left in the mold until they have cooled to a black color(approximately900°F(482°C)or less).The size of coupon cast to represent the casting shall be at the option of the purchaser.In case no option is expressed,the manufacturer shall make the choice.1This specification is under the jurisdiction of the ASTM Committee A04onCastings and is the direct responsibility of Subcommittee A04.02on Malleable andDuctile Iron Castings.Current edition approved Oct.1,2004.Published October2004.Originallyapproved st previous edition approved in1999as A536–84(1999)e1.2For referenced ASTM standards,visit the ASTM website,,orcontact ASTM Customer Service at service@.For Annual Book of ASTMStandards volume information,refer to the standard’s Document Summary page onthe ASTM website.3Available from Standardization Documents Order Desk,DODSSP,Bldg.4,Section D,700Robbins Ave.,Philadelphia,PA19111-50981Copyright©ASTM International,100Barr Harbor Drive,PO Box C700,West Conshohocken,PA19428-2959,United States.6.2When investment castings are made to this specification,the manufacturer may use test specimens cast to size incorpo-rated in the mold with the castings,or separately cast to size using the same type of mold and the same thermal conditions that are used to produce the castings.These test specimens shall be made to the dimensions shown in Fig.1of Specifica-tion A 732/A 732M or Figs.5and 6of Test Methods and Definitions A 370.6.3The manufacturer may use separately cast test coupons or test specimens cut from castings when castings made to this specification are nodularized or inoculated in the mold.Sepa-rately cast test coupons shall have a chemistry that is repre-sentative of castings produced from the ladle poured and a cooling rate equivalent to that obtained with the test molds shown in Figs.1and 2,Figs.4-6,or Appendix X2.The size (cooling rate)of the coupon chosen to represent the casting should be decided by the purchaser.If test coupon size is notspecified,the manufacturer shall make the choice.When test bars will be cut from castings,test bar location shall be agreed on by the purchaser and manufacturer and indicated on the casting drawing.The manufacturer shall maintain sufficient controls and control documentation to assure the purchaser that properties determined from test coupons or test bars are representative of castings shipped.6.4The test coupons shall be poured from the same ladle or heat as the castings they represent.6.5Test coupons shall be subjected to the same thermal treatment as the castings they represent.7.Special Requirements7.1When specified in the contract or purchase order,castings shall meet special requirements as to hardness,chemi-cal composition,microstructure,pressure tightness,radio-graphic soundness,magnetic particle inspection dimensions,and surface finish.8.Workmanship,Finish,and Appearance8.1The castings shall be smooth,free of injurious defects,and shall conform substantially to the dimensions of the drawing or pattern supplied by the purchaser.8.2Castings shall not have chilled corners or center chill in areas to be machined.TABLE 1Tensile RequirementsGrade 60-40-18Grade 65-45-12Grade 80-55-06Grade 100-70-03Grade 120-90-02Tensile strength,min,psi 600006500080000100000120000Tensile strength,min,MPa 414448552689827Yield strength,min,psi 4000045000550007000090000Yield strength,min,MPa276310379483621Elongation in 2in.or 50mm,min,%18126.03.02.0TABLE 2Tensile Requirements for Special ApplicationsGrade 60-42-10Grade 70-50-05Grade 80-60-03Tensile strength,min,psi Tensile strength,min,MPa 600004157000048580000555Yield strength,min,psi Yield strength,min,MPa420002905000034560000415Elongationin 2in.or 50mm,min,%1053Metric Equivalents in.mm in.mm1⁄2112.725.411⁄221⁄238.163.5N OTE —The length of the keel block shall be6in.(152mm).FIG.1Keel Block for Test CouponsDimen-sions“Y”Block SizeFor Castings of Thickness Less Than 1⁄2in.(13mm)For Castings of Thickness1⁄2in.(13mm)to 11⁄2in.(38mm)For Castings of Thickness of 11⁄2in.(38mm)and Over in.mm in.mm in.mm A 1⁄213125375B 15⁄84021⁄8545125C 2503754100D 410061508200E717571757175approxapproxapproxapproxapproxapproxFIG.2Y-Blocks for Test CouponsFIG.3Mold for Modified Keel BlockFIG.4Sectioning Procedure for Y-Blocks9.Chemical Requirements9.1It is the intent of this specification to subordinate chemical composition to mechanical properties;however,any chemical requirements may be specified by agreement between the manufacturer and the purchaser.10.Number of Tests and Retests10.1The number of representative coupons poured and tested shall be established by the manufacturer,unless other-wise agreed upon with the purchaser.10.2In the case of the Y-block,the section shall be cut from the block as shown in Fig.4.If any tension test specimen shows obvious defects,another may be cut from the same test block or from another test block representing the same metal.11.Tension Test Specimen11.1The standard round tension test specimen with a 2-in.or 50-mm gage length shown in Fig.5shall be used,except when the ½-in.(12.7-mm)Y-block coupon is used.In this case,either of the test specimens shown in Fig.6shall be satisfac-tory.12.Responsibility for Inspection12.1Unless otherwise specified in the contract or purchase order,the supplier is responsible for the performance of all inspection requirements as specified herein.Except as other-wise specified in the contract or order,the supplier may use his own or any other facilities suitable for the performance of the inspection requirements specified herein,unless disapproved by the purchaser.The purchaser reserves the right to perform any of the inspections set forth in the specification where such inspections are deemed necessary to assure supplies and services conform to prescribed requirements.13.Identification Marking13.1When size permits,each casting shall be identified by the part or pattern number in raised numerals.Location of marking shall be as shown on the applicable drawing.14.Certification14.1When agreed upon in writing by the purchaser and the seller,a certification shall be made the basis of acceptance of the material.This shall consist of a copy of the manufacturer’s test report or a statement by the seller,accompanied by a copy of the test results,that the material has been sampled,tested,and inspected in accordance with provisions of this specifica-tion.Each certification so furnished shall be signed by an authorized agent of the seller or manufacturer.15.Preparation for Delivery15.1Unless otherwise specified in the contract or purchase order,cleaning,drying,preservation,and packaging of casting shall be in accordance with manufacturer’s commercial prac-tice.Packing and marking shall also be adequate to ensure acceptance and safe delivery by the carrier for the mode of transportation employed.15.2Government Procurement —When specified in the con-tract or purchase order marking for shipment shall be in accordance with the requirements of MIL-STD-129.16.Keywords16.1casting;ductile iron;modular iron;spheroidalgraphiteMetric Equivalents in.mm in.mm0.0050.130.5012.70.10 2.5250.81⁄8 3.23⁄89.521⁄457.2N OTE —The gage length and fillets shall be as shown but the ends may be of any shape to fit the holders of the testing machine in such a way that the load shall be axial.The reduced section shall have a gradual taper from the ends toward the center,with the ends 0.003to 0.005in.(0.08to 0.13mm)larger in diameter than the center.FIG.5Standard Round Tension Test Specimen with 2-in.or50-mm GageLengthMetric Equivalentsin.mm in.mm 0.0050.13 1.025.40.0070.1811⁄431.80.252 6.40 1.435.60.3579.0713⁄444.4N OTE —If desired,the length of the reduced section may be increased to accommodate an extensometer.FIG.6Examples of Small-Size Specimens Proportional toStandard 1⁄2-in.(12.7-mm)RoundSpecimenAPPENDIXES(Nonmandatory Information)X1.MECHANICAL PROPERTIES OF CASTINGSX1.1The mechanical properties of iron castings are influ-enced by the cooling rate during and after solidification,by chemical composition,by heat treatment,by the design and nature of the mold,by the location and effectiveness of gates and risers,and by certain other factors.X1.2The cooling rate in the mold and,therefore,the properties developed in any particular section are influenced by the presence of cores,chills and chaplets,changes in section thickness,and the existence of bosses,projections,and inter-sections,such as junctions of ribs and bosses.Because of the interactions of these factors,no precise quantitative relation-ship can be stated between the properties of the iron in various locations of the same casting or between the properties of a casting and those of a test specimen cast from the same iron. When such a relationship is important and must be known for a specific application,it may be more closely ascertained by appropriate experimentation.X1.3When reliable information is unavailable on the relationship between properties in a casting and those in a separately cast test specimen,and where experimentation would be unfeasible,the size of the test casting should be so selected as to approximate the cooling rate of the main or controlling section of the casting.X2.Y-BLOCK SELECTIONX2.1As a general guide for selection of the proper Y-block, the tabulation in Table X2.1,based on cooling rates,shows,for various test coupons,the equivalent geometric shapes with variousdimensions.ASTM International takes no position respecting the validity of any patent rights asserted in connection with any item mentioned in this ers of this standard are expressly advised that determination of the validity of any such patent rights,and the risk of infringement of such rights,are entirely their own responsibility.This standard is subject to revision at any time by the responsible technical committee and must be reviewed every five years and if not revised,either reapproved or withdrawn.Your comments are invited either for revision of this standard or for additional standards and should be addressed to ASTM International Headquarters.Your comments will receive careful consideration at a meeting of the responsible technical committee,which you may attend.If you feel that your comments have not received a fair hearing you should make your views known to the ASTM Committee on Standards,at the address shown below.This standard is copyrighted by ASTM International,100Barr Harbor Drive,PO Box C700,West Conshohocken,PA 19428-2959,United States.Individual reprints (single or multiple copies)of this standard may be obtained by contacting ASTM at the above address or at 610-832-9585(phone),610-832-9555(fax),or service@ (e-mail);or through the ASTM website ().TABLE X2.1Equivalent Geometric Shapes Correspondingto Y-BlocksY-Block Size,in.(mm)Infinite Plate Thickness,in.(mm)Round Diameter,in.(mm)Cube Edge,in.(mm)1⁄2(12.7)0.5(12.7) 1.2(30.5)1.75(44.4)1(25.4)0.9(22.9) 1.75(44.4) 2.75(69.8)3(76.2)1.6(40.6) 3.1(78.7) 4.8(121.9)。

a536 gr65-45-12化学成分标准1.导言美国铸造材料协会（ASTM）制定了多种用于铸造材料的标准，其中包括A536 Gr65-45-12铸铁的化学成分标准。

对于需要使用A536Gr65-45-12铸铁材料的企业和个人来说，了解和遵守这一标准是非常重要的。

2. A536 Gr65-45-12铸铁A536 Gr65-45-12是一种特殊的球墨铸铁材料，其性能优异，广泛应用于汽车零部件、机械零部件等领域。

A536 Gr65-45-12球墨铸铁具有优良的强度、韧性和耐磨性，因此备受青睐。

3. 化学成分标准根据ASTM A536标准，A536 Gr65-45-12球墨铸铁的化学成分应符合以下要求：- 碳含量：3.40-3.60- 硅含量：2.00-2.75- 锰含量：0.60-0.90- 硫含量：0.020最大- 磷含量：0.035最大- 镁含量：0.035-0.0554. 化学成分的重要性化学成分是决定铸铁材料性能的关键因素之一。

合理的化学成分可以确保球墨铸铁的力学性能、热处理性能和耐蚀性能均达到要求，从而满足特定工程应用的需求。

5. 确保成分符合标准的方法企业在生产A536 Gr65-45-12球墨铸铁材料时，需要对原料和成品进行严格的化学成分测试。

常用的测试方法包括光谱分析、化学分析和质量检测等。

6. 严格遵守化学成分标准的意义严格遵守A536 Gr65-45-12球墨铸铁的化学成分标准，可以确保产品质量稳定，减少因化学成分波动引起的质量问题，提高产品的市场竞争力。

7. 结语A536 Gr65-45-12球墨铸铁的化学成分标准对于保证产品质量、满足工程应用需求具有重要意义。

企业和个人应认真对待化学成分标准，确保生产和使用的A536 Gr65-45-12球墨铸铁材料符合相关标准要求，以确保产品的品质和性能达标。

8. 化学成分控制对材料性能的影响A536 Gr65-45-12球墨铸铁的化学成分直接影响其力学性能、热处理性能和耐蚀性能。

a536 gr65-45-12化学成分标准A536 GR65-45-12是一种特殊的球墨铸铁材料，它具有一系列特定的化学成分标准。

本文将详细介绍A536 GR65-45-12的化学成分，包括每个元素的含量以及其对材料性能的影响。

A536 GR65-45-12球墨铸铁的化学成分标准如下：-碳含量（Carbon）：2.60-3.00%-硅含量（Silicon）：1.50-2.50%-锰含量（Manganese）：0.60-0.90%-磷含量（Phosphorus）：≤0.080%-硫含量（Sulfur）：≤0.020%-镁含量（Magnesium）：0.035-0.055%-铁含量（Iron）：余量首先，碳是球墨铸铁中最主要的合金元素之一。

高碳含量可以提高球墨铸铁的强度和硬度，但对韧性和冲击韧性的影响较小。

适量的碳含量可以使球墨铸铁具有良好的可加工性和耐磨性。

其次，硅是球墨铸铁中的另一个重要元素。

硅的加入可以提高球墨铸铁的液态流动性，有助于减少铸件的缩孔和气孔，提高铸件的密度和强度。

锰是一种重要的合金元素，它的加入可以提高球墨铸铁的强度和韧性。

锰可以与硫结合，形成硫化锰，减少硫化物的形成，从而提高球墨铸铁的抗疲劳性能和抗磨损性能。

磷和硫是球墨铸铁中的杂质元素，它们的含量需要控制在较低水平。

过高的磷含量会导致铸件的脆性增加，影响其韧性和可焊性。

硫的存在也会降低球墨铸铁的韧性和冲击韧性，并且易形成夹杂物和气孔。

镁是球墨铸铁中不可缺少的合金元素。

镁的加入可以使铁素体中形成球状的石墨，改善球墨铸铁的塑性和韧性，提高其抗断裂性能和抗疲劳性能。

最后，除了以上列出的主要元素，球墨铸铁中还含有其他微量元素，如铜、镍、钒等。

这些元素的含量很低，对球墨铸铁的性能影响较小，通常在制造过程中通过添加合适的铁合金来控制。

总结起来，A536 GR65-45-12球墨铸铁的化学成分标准非常严格，各元素的含量都在一定的范围内控制。

astm a53 对应国内标准
ASTM A53是美国材料与试验协会（ASTM）制定的一种标准，它规定了管道用碳素钢和低合金钢管的制造、试验、性能和其它要求的规范。

ASTM A53标准与国内标准有一定的对应关系，以下是具体的对应关系：
ASTM A53/A53M-07标准对应于GB/T 3092-2008《输送流体用无缝钢管》和GB/T 8163-2008《输送流体用无缝钢管》。

这两个标准与ASTM A53/A53M-07在化学成分、力学性能、试验方法和检验规则等方面基本相同，只是在国内的标准中可能存在一些细微的差异。

ASTM A53/A53M-99e标准对应于GB/T 8163-1999《流体输送用无缝钢管》。

这个标准与ASTM A53/A53M-99e在化学成分、力学性能、试验方法和检验规则等方面基本相同，只是在国内的标准中可能存在一些细微的差异。

ASTM A53/A53M-04标准对应于GB/T 8163-2004《流体输送用无缝钢管》。

这个标准与ASTM A53/A53M-04在化学成分、力学性能、试验方法和检验规则等方面基本相同，只是在国内的标准中可能存在一些细微的差异。

ASTM A53/A53M-03标准对应于GB/T 8162-1987《结构用无缝钢管》。

这个标准与ASTM A53/A53M-03在化学成分、力学性能、试验方法和检验规则等方面基本相同，只是在国内的标准中可能存在一些细
微的差异。

ASTM A53标准与国内标准有一定的对应关系，但可能存在一些细微的差异。

在使用时，应按照国内标准的要求进行相应的检验和试验，以确保产品的性能和质量符合国内标准的要求。

astm a536 化学成分ASTM A536是一种常用的球墨铸铁材料，它具有优异的机械性能和化学成分。

本文将重点介绍ASTM A536的化学成分及其对材料性能的影响。

ASTM A536球墨铸铁的化学成分包括碳(C)、硅(Si)、锰(Mn)、硫(S)、磷(P)等元素。

其中，碳是球墨铸铁的主要合金元素，它能够提高铸铁的硬度和强度。

硅是球墨铸铁中的次要合金元素，它能够提高铸铁的耐磨性和耐腐蚀性。

锰的加入可以提高球墨铸铁的强度和韧性，同时还能够提高铸铁的耐磨性和硬度。

硫和磷的含量应控制在较低的水平，因为它们会降低球墨铸铁的韧性和冲击韧性。

具体而言，ASTM A536球墨铸铁的化学成分要求如下：- 碳含量范围为3.20%至3.60%，碳含量的增加可以提高球墨铸铁的硬度和强度，但过高的碳含量会导致铸铁脆性增加。

- 硅含量范围为2.20%至3.00%，硅的加入可以提高球墨铸铁的耐磨性和耐腐蚀性，同时还能改善铸铁的流动性。

- 锰含量范围为0.60%至0.90%，锰的加入可以提高球墨铸铁的强度和韧性，同时还能提高铸铁的耐磨性和硬度。

- 硫含量应小于0.05%，过高的硫含量会降低球墨铸铁的韧性和冲击韧性。

- 磷含量应小于0.05%，过高的磷含量也会降低球墨铸铁的韧性和冲击韧性。

ASTM A536球墨铸铁的化学成分对材料性能有着重要的影响。

碳的含量决定了球墨铸铁的硬度和强度，适当的碳含量可以提高铸铁的耐磨性和耐腐蚀性。

硅的含量对球墨铸铁的流动性和耐蚀性有着显著的影响，适当的硅含量可以提高铸铁的流动性和耐蚀性。

锰的加入可以提高球墨铸铁的强度和韧性，同时还能提高铸铁的耐磨性和硬度。

然而，硫和磷的含量应尽量控制在较低水平，以避免降低铸铁的韧性和冲击韧性。

ASTM A536球墨铸铁的化学成分对其性能有着重要的影响。

合理控制碳、硅、锰、硫和磷的含量，可以使球墨铸铁具备优异的机械性能和耐磨性能，从而满足不同工程领域的需求。

在实际应用中，我们可以根据具体要求选择合适的ASTM A536球墨铸铁材料，以确保工程的可靠性和安全性。

铸造用生铁的标准通常由各个国家或地区的标准化机构或行业协会制定和管理。

这些标准规定了铸造用生铁的化学成分、物理性质、机械性能、质量控制要求等，以确保生铁在铸造过程中具有适当的特性。

以下是一些常见的国际标准和地区标准组织的标准，它们涉及铸造用生铁：
1. ASTM International：美国材料与试验协会（ASTM）发布了一系列与铸造用生铁相关的标准，如ASTM A48（关于灰铸铁）、ASTM A536（关于球墨铸铁）等。

2. ISO：国际标准化组织（ISO）发布了多个与铸造用生铁相关的标准，包括ISO 185（灰铸铁材料分类和命名）和ISO 1083（球墨铸铁材料分类和命名）等。

3. GB/T（中国国家标准）：中国也制定了与铸造用生铁相关的国家标准，如GB/T 9439（灰铸铁机械性能试验方法）、GB/T 1348（球墨铸铁机械性能试验方法）等。

4. DIN（德国工业标准）：德国的标准化机构DIN发布了一些与铸造用生铁相关的标准，如DIN EN 1561（灰铸铁）和DIN EN 1563（球墨铸铁）等。