1·The interface of austenite and martensite is somewhat straight.
奥氏体和马氏体之间的界面为较平直的界面。
2·An austenite shell is formed over the entire surface of the graphite nodules.
在石墨球的整个表面形成了一层奥氏体壳。
3·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。
4·However, the rapid cooling of austenite postpones dynamic transformation remarkably.
但奥氏体快速冷却明显推迟了动态相变的发生。
5·Only strip austenite substructure and stacking fault were observed around the carbides.
在碳化物颗粒附近只观察到奥氏体变体和层错。
6·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。
7·These lath martensite first nucleates in parent austenite intergranular and twin boundary.
应变诱发马氏体首先在原奥氏体晶界和孪晶界形核。
8·Effect of Manganese on austenite cooling transformation of high Chromium cast iron is investigated.
研究了锰对高铬铸铁奥氏体冷却转变过程的影响。
9·As before, any remaining austenite transforms to pearlite upon slow cooling through this temperature.
就像以前说的一样,当缓慢冷却到这温度时所有剩余奥氏体转化为珠光体。
10·Spheroidal austenite and acicular austenite can be seen during the austenitizing courses at low speed.
慢速加热奥氏体化过程中,观察到球状奥氏体和针状奥氏体。