说明:双击或选中下面任意单词,将显示该词的音标、读音、翻译等;选中中文或多个词,将显示翻译。
您的位置:首页 -> 词典 -> 阴极极限电流密度
1)  cathodic limiting current
阴极极限电流密度
1.
The results showed that the cathodic limiting current density significantly increased with the presence of the TPB zone,indicating that the TPB zone played an important role in the cathodic process of metals.
结果表明,三相线界面区长度及宽度的增加均使得阴极极限电流密度有明显增加,而溶液浓度对阴极过程的影响只在三相线界面区面积较小时才表现出来。
2)  cathodic current density
阴极电流密度
1.
The relation between cathodic current density and temperature was studied under given pH value and distance and area ratio between cathode and anode, and also the effects of cathodic current density on the plating speed, internal stress,hardness and content of SiC were discuss.
研究了当pH值、阴阳极间距及面积比一定时,阴极电流密度与温度的关系,阴极电流密度对沉积速度、内应力、镀层硬度及SiC含量的影响。
2.
Table liste d cathodic current density and average load in different plating solutions, ther eby tank size was calculated.
列表说明各镀种阴极电流密度、平均装载量等数据,由此计算所需设置的镀槽尺寸。
3.
Influences of cathodic current density, barrel rotative speed and barrel hole size on nickel electrodeposition performance including electrodeposition rate of nickel, cathodic current effciency and bath throwing power are discussed.
提出滚镀瓦特镍的工艺配方和操作条件,讨论了阴极电流密度、滚筒转速、孔眼大小等对镍电沉积性能如镍沉积速度、阴极电流效率、镀液分散能力等的影响。
3)  dispenser cathode with high emission current density
大电流密度阴极
4)  cathodic (current) density
阴极电流密度<冶>
5)  cathode current density
阴极电流密度
1.
The cathode current density and the fluid field relevant to the growth of electroforming layer is studied with numerical analysis to explore the inherent laws of micro-electroforming that is a key technology of UV-LIGA.
研究了LIGA/UV-LIGA的核心技术微电铸的内在规律,对影响铸层生长的阴极电流密度和流体流场进行了数值分析。
2.
The effects of the cathode current density on the composition and corrosion of the coatings was investigated.
在氟锆酸钾电解液体系中,采用微弧氧化的方法在LY12铝合金表面原位生长ZrO2的陶瓷膜层,研究阴极电流密度对陶瓷膜层组成及耐腐蚀性的影响。
6)  limited current density
极限电流密度
1.
The factors of limited current density of electrodialysis;
影响电渗析器极限电流密度的因素
补充资料:阴极
分子式:
CAS号:

性质:电池中发生还原反应的电极。对于电解电池,负极发生的是还原反应,如Cu2++2e-→Cu↓,故为阴极。对于蓄电池,放电时正极发生还原,为阴极;但充电时正极是氧化反应,成为阳极。一般所称蓄电池的阴极均指其正极。

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