一种铁路辙叉用贝氏体钢的焊接热模拟

王秋影; 陈辉; 胡智博; 江超; 李达

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一种铁路辙叉用贝氏体钢的焊接热模拟
王秋影¹, 陈辉¹, 胡智博², 江超¹, 李达¹
1.西南交通大学材料科学与工程学院, 成都 610031;2.铁道科学研究院, 北京 100081

摘要:

针对一种辙叉用贝氏体钢,采用Gleeble-3500对其焊接热循环过程进行了热模拟试验.采用光学显微镜、扫描电子显微镜、透射电子显微镜和硬度试验对不同冷却速度下焊接热影响区的组织和性能进行研究.作出加热和冷却膨胀曲线,并采用切线法测定奥氏体转变开始温度(A_c1)、奥氏体转变结束温度(A_c3)和不同冷却速度下的相转变温度.根据试验结果绘出辙叉用贝氏体钢的焊接热影响区连续冷却转变(simulated heat affected zone continuous cooling transforming,SHCCT)曲线,为其焊接性研究提供了基础数据,并用于预测热影响区的组织和性能,可用于指导贝氏体钢辙叉焊接及焊补工艺的优化设计.

关键词: 贝氏体钢辙叉 SHCCT图显微组织焊接热模拟

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Welding thermal simulation of bainite steel used for rail way frog

WANG Qiuying¹, CHEN Hui¹, HU Zhibo², JIANG Chao¹, LI Da¹

1.School of Material Science and Engineering, Southwest Jiaotong University, Chengdu 610031, China;2.China Academy of Railway Science, Beijing 100081, China

Abstract:

Gleeble-3500 was used to simulate the thermal cycle processes of bainite steel used for frog. The microstructure and properties of HAZ were investigated by optical microscopy(OM), scanning electron microscopy(SEM), transmission electron microscopy(TEM) and hardness test, respectively. The start temperature of austenite transformation, the end temperature of austenite transformation and the phase transition temperatures under different cooling rates were measured by the tangent method from the expanding curves. According to the experimental results, the simulated heat affected zone continuous cooling transforming(SHCCT) diagram of the bainite steel was constructed.SHCCT diagram provides basic data for the research of its weldability. It could be used to predict microstructure and properties of HAZ and optimize welding and repair welding processes of bainite steel frog.

Key words: bainite steel frog SHCCT diagram microstructure welding thermal simulation