1·With increasing tempering temperature, the retained austenite decreases.
回火温度升高,其残余奥氏体量逐渐减少。
2·The structure of the studied steels was bainite, martensite and retained austenite.
研究用钢的室温组织为贝氏体、马氏体、少量残余奥氏体。
3·Some methods of retained austenite measurement on high chromium cast iron were compared.
对高铬铸铁残余奥氏体测定的几种方法进行了比较。
4·The residual compressive stress and retained austenite were analyzed quantitatively by XRay Diffraction.
用X射线衍射法对表层残留奥氏体和残余应力作了定量分析。
5·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。
6·The original structure consists of deformation induced martensite, quenching martensite and retained austenite.
原始材料的组织状态为形变马氏体、淬火马氏体及残余奥氏体。
7·The retained austenite transformation prior to the necking of the example enhanced the uniform elongation rate.
分析认为:残余奥氏体在颈缩发生前的较完全转变有利于提高均匀延伸率;
8·The type of carbide in decomposition products is related to the distribution and morphology of retained austenite.
碳化物的类型与残余奥氏体的分布、形态有关。
9·Retained austenite reduction and carbide precipitations in the martensite are anticipated by the tempering process.
减少残余奥氏体和马氏体碳化物的降水预计的回火工艺。
10·There are different ideas about the effect of retained austenite in high chromium irons under impact wear conditions.
在冲击磨损条件下,关于高铬铸铁中的残留奥氏体的作用,在国内及国外都有不同的看法。