1) dipole-current density
偶极电流密度
2) electrode current density
电极电流密度
1.
A approach to increase pitch circle power density and electrode current density are carried out.
介绍了矿热炉极心圆功率密度的表示公式和电极载流能力的理论公式及经验公式,对提高极心圆功率密度和电极电流密度进行了探讨。
3) collector current density
集电极电流密度
4) 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。
5) 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
6) limiting current density
极限电流密度
1.
After the determination of the limiting current density,The influences of different flow rate and different concentration on the desalting rate and the recovery of amino acid in the electrodialysis desolation of the amino acid solution were measured,the best operation parameters were determined.
在确定极限电流密度的前提下,测定了氨基酸盐溶液在电渗析过程中,不同淡水流速和浓度对脱盐率及氨基酸回收率的影响,得出了最佳操作参数。
2.
The experimental results showed that the limiting current density was significantly improved with the increase of ammonium sulfate concentration, flow rate and temperature.
采用六室膜组合的膜堆研究离子交换膜-硫酸铵溶液体系的电流-电压曲线,考察了离子交换膜(JCM-15和JAM-15)-硫酸铵溶液体系中硫酸铵浓度、流速和温度对极限电流密度的影响。
3.
The limiting current density of salt solution with and without amino acid of different concentrations under different flow rates were measured.
测定了不同浓度和流速下的盐水和氨基酸盐溶液的极限电流密度,分析了浓度、流速、氨基酸含量等因素对电渗析极限电流密度的影响,提出了描述电渗析特性的数学模型。
补充资料:表观电流密度
分子式:
CAS号:
性质:电极单位表观面积上流过的电流。由于电极的真实面积不易精确测量,这是对比电极反应速率时常用的度量方法。
CAS号:
性质:电极单位表观面积上流过的电流。由于电极的真实面积不易精确测量,这是对比电极反应速率时常用的度量方法。
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