1) Zinc cell sludge
锌阳极泥
2) Zinc electrolytic anode slime
锌电解阳极泥
3) zinc anode
锌阳极
1.
The working potential of zinc anode is the most positive (-1.
其中锌阳极工作电位最正 (- 1。
2.
The anticorrosive agents for free mercury Zinc anode are selected and the activated energy of Hydrogen evolution reaction is measured by collecting gas method.
利用收集气体法选择了无汞锌阳极的缓蚀剂,测定了析氢反应的活化能。
4) zinc anodes ribbon
锌阳极带
1.
The effect of lanthanum on electrochemical properties of zinc anodes ribbon was studied.
研究了镧的加入对牺牲锌阳极带电化学性能的影响。
5) zinc-anode board
锌阳极板
1.
Spectrophotometeric determination of trace aluminium in zinc-anode board with enhanced sensitivity of mixed surfactants;
混合表面活性剂增敏铬天青S分光光度法测定锌阳极板中痕量铝
6) copper anode slime
铜阳极泥
1.
Study on tellurium leaching from mixed slag of copper anode slime;
从铜阳极泥综合渣中浸出碲的研究
2.
Improvement practice of copper anode slime treatment process;
铜阳极泥处理工艺的改进实践
3.
Production practice of copper anode slime treatment by dressing-metallurgy combination method;
用选冶联合流程处理铜阳极泥的生产实践
补充资料:锌阳极
分子式:
CAS号:
性质:在阴极保护中锌含量大于99.995%、铁含量小于0.0014%的牺牲阳极。锌与铁的有效电位差较小。如纯锌杂质含量高,在使用过程中阳极表面上会形成高电阻的、坚硬的、不脱落的腐蚀产物,这是由于形成了铁-锌相,使其化学性能明显劣化,甚至使锌阳极失去保护性能。
CAS号:
性质:在阴极保护中锌含量大于99.995%、铁含量小于0.0014%的牺牲阳极。锌与铁的有效电位差较小。如纯锌杂质含量高,在使用过程中阳极表面上会形成高电阻的、坚硬的、不脱落的腐蚀产物,这是由于形成了铁-锌相,使其化学性能明显劣化,甚至使锌阳极失去保护性能。
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