... austenite bay || 奥氏体区,过冷奥氏体最稳定区(S曲线的) austenite decomposition || 奥氏体分解 austenite former || 奥氏体形成元素 ...
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Therein, both retained austenite decomposition and carbides precipitation were the key factors in the cryo-treating process.
其中残余奥氏体的分解和微细碳化物的析出是关键因素。
Employed by optical microscope, scanning electron microscope, microhardness tester and X ray diffraction instrument, the isothermal decomposition process of high nitrogen austenite was investigated.
利用光学显微镜、扫描电镜、显微硬度计及X射线衍射仪分析了高氮奥氏体的等温分解过程。
The decomposition and transformation of the retained austenite in bainite differ from that in martensite.
贝氏体中的残余奥氏体分解和转变的行为与马氏体中的不同。
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