Meanwhile, laser transformation hardening is a complex thermal elastoplastic problem.
同时,激光相变硬化过程是一个复杂的热弹塑性问题。
参考来源 - 轴对称体激光相变硬化过程温度场和应力场的数值模拟·2,447,543篇论文数据,部分数据来源于NoteExpress
激光相变硬化机理主要是马氏体强化和晶粒细化。
The mechanism of laser hardening is martensitic hardening and grain refining.
实测了激光相变硬化区的宽度和深度及残余应力分布。
The width and depth of laser transformation hardening zone and residual stress distribution were measured experimentally.
其中激光相变硬化最为成熟,在工业生产中己得到广泛地应用。
Among the above laser interset change hardening is the most mature, it has been used widely in industrial production.
应用推荐