...惰性气体钎焊;界面反应层;显微组织;力学性能[gap=1345]Key words: tungsten inert gas brazing; interface reaction layer; microstructure; mechanical properties...
基于12个网页-相关网页
对界面反应层的观察表明,反应层分为两层结构。
The observation of interfacial reaction layer showed that it is a two-layer structure.
在连接温度为1403 K的条件下,随着连接时间的增加,界面反应层厚度先快速增加,再缓慢增加。
When bonding temperature was 1403 K, reaction layer grew fast at first and then slow down with the increase of bonding time.
激光能量对电极表面的作用及界面溶液层的影响加速了电子转移并提高了电极反应的灵敏度。
Acceleration of electrons transfer and a rise in sensitivity of electrode reaction result from the effect of laser energy to electrode surface and interface solution layer.
应用推荐