材料科学
开裂
冶金
共晶体系
晶界
奥氏体
焊接
奥氏体不锈钢
微观结构
复合材料
腐蚀
作者
Jaehong Yoo,Kyutae Han,Y. Park,Jae Yeon Choi,C. Lee
标识
DOI:10.1179/1362171814y.0000000216
摘要
Solidification cracking susceptibilities of high Mn steel welds were evaluated in the present study. A longitudinal Varestraint technique was utilised to assess the solidification cracking behaviours of the fusion zone. High Mn steel welds were more susceptible to solidification cracking than 304 and 202 austenitic stainless steel welds, however, they were less susceptible than 310S austenitic stainless steel welds. Extensive segregations of Mn and C took place at the dendritic and grain boundaries in the weld metal, and accordingly contributed to the increase of the hot cracking susceptibility of high Mn steel by the enlargement of solidification temperature range. Further, continuous γ-(Fe,Mn) 3 C eutectic phases formed at 1090°C along the grain boundary primarily resulted in the increase of solidification cracking sensitivity in high Mn steel.
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