1) electrode degradation
电极失效
1.
Effect of TiC coating on electrode tip surface on electrode degradation during resistance spot welding zinc coated steel;
点焊镀锌钢板时电极表面熔敷TiC涂层对电极失效的影响
2.
The effect of TiC coating in electrode tip surface on spheriform electrode degradation during resistance spot welding zinc coated steel was investigated by SEM,EDX and XRD.
利用SEM、EDX和XRD等方法分析了在点焊镀锌钢板时球形电极表面熔敷TiC涂层对电极失效的影响。
3.
The electrode degradation mechanism is studied during micro-resistance spot welding of nickel-plated steel to nickel sheet in the present paper.
本文主要研究了微型点焊镀镍钢板和镍板时电极失效的机制。
2) electrode degradation mechanism
电极失效机制
4) spent batteries
失效电池
1.
Zinc ash in steel industry,spent batteries,worn electrical devices,printing circuitry boards,copper smelt residues and electroplating sludge are key issues in recycling utilization of m.
炼钢锌灰、失效电池、废旧家电、印刷线路板、铜冶炼渣和电镀污泥的循环利用是很值得关注的金属二次资源循环利用领域。
5) arc failure
电弧失效
补充资料:爆破失效
分子式:
CAS号:
性质: 以大变形理论为依据,考虑到材料达到屈服以后,有明显的变形并有应变硬化现象,因而以爆破压力作为容器承载的极限状态并称为爆破失效。
CAS号:
性质: 以大变形理论为依据,考虑到材料达到屈服以后,有明显的变形并有应变硬化现象,因而以爆破压力作为容器承载的极限状态并称为爆破失效。
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