In-situ Observation of martensite transformation and retained austenite in supermartensitic stainless steel

Shuoyuan Zhang, H. Terasaki, Y. Komizo
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引用次数: 12

Abstract

Martensite transformation of supermartensitic stainless steel during cooling was in-situ observed by using high temperature laser scanning confocal microscopy and X-ray diffraction by Synchrotron radiation. The crystallography of martensite and austenite structure were analyzed which X-ray diffraction spots and electron back scattered diffraction patterns (EBSD). From the test results it could be concluded that the austenite phase is accommodated by rotation less that 3 degree of the crystallite when the martensite transformation is occurred. X-Ray diffraction integration strength of austenite was influenced by the transformation stress immediately after the martensite transformation. We consider that the diffracting power of parent phase of austenite increase during martensitie transformation, because the compression stress is accommodated, and the defect is introduced, resulting in the mosaic structure.
超马氏体不锈钢中马氏体相变和残余奥氏体的原位观察
采用高温激光扫描共聚焦显微镜和同步辐射x射线衍射观察了超马氏体不锈钢在冷却过程中的马氏体转变。利用x射线衍射斑点和电子背散射衍射图(EBSD)分析了马氏体和奥氏体组织的晶体学。从试验结果可以看出,马氏体转变发生时,奥氏体相被晶体旋转了不到3度。马氏体转变后,奥氏体的x射线衍射积分强度受到相变应力的直接影响。我们认为,在马氏体转变过程中,奥氏体母相的衍射能力增大,这是由于压缩应力被容纳,缺陷被引入,导致了马赛克结构的形成。
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