1) fast-consuming electrode
速蚀电极
2) Electrode pitting
电极点蚀
1.
Formation mechanism of electrode pitting in resistance spot welding of aluminum alloys;
铝合金电阻点焊中电极点蚀的形成机制
3) electrode erosion
电极烧蚀
1.
In order to study the electrode erosion mechanisms of gas spark switch in this paper the erosion micro patterns of the spark switch electrode are investigated.
为分析气体火花开关的电极烧蚀问题 ,首先用尼康ECLIPSEME6 0 0P型显微镜实验研究了开关放电后电极表面的微观形貌和侵蚀特征 ,结果表明电极烧蚀的典型图象大致有 3种 :弧坑、突起、裂纹 ;电极烧蚀机理的定性分析表明电极表面烧蚀的图象可用热爆炸力、磁流体动力、热应力等学说解
2.
The electrode erosion of gas spark switch caused by high current,high energy arc influences the feature and lifetime of the switch.
本文根据电极电弧的烧蚀模型 ,通过热传导的计算 ,推导出了几个实用的公式 ,指出了选择耐烧蚀电极材料的原则和减少气体火花开关电极烧蚀的方法。
3.
To find the ways to increase repetition rates and lifetime of the switches, mechanisms of two physical processes which determine repetition rates and lifetime of the switches ,dielectric recovery and electrode erosion, were studied in theory, and a serial of high-energy high-coulomb repetitive experiments were performed with two different three-electrode gas spark switches designed by ours.
为了探寻提高开关重复频率和寿命的技术途径和方法,对制约开关重复频率和寿命的两个主要物理过程—绝缘恢复和电极烧蚀的机理进行了理论研究。
5) slow-consuming electrode
缓蚀电极
6) unattackable electrode
抗蚀电极
补充资料:水泵气蚀(见空化与空蚀)
水泵气蚀(见空化与空蚀)
shuibeng qishi水泵气蚀见空化与空蚀。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条