1) electrolyte density distributing
电解液密度分布
2) Electrolyte density
电解液密度
1.
In order to improve the battery life at deep cycling,experiments have been made with regard to the effects of the electrolyte density,grid alloy and electrolyte additive A on the deep cycling performance of posi tive plates.
为提高蓄电池的深循环寿命性能 ,对电解液密度、板栅合金、电解液添加剂A等因素对正极板深循环性能的影响进行了实验探讨 ,发现电解液密度过高时对正极活性物质深循环性能有显著影响 ;专用合金I的深循环效果良好 ,但在板栅与活性物质界面仍会出现一定程度的钝化层 ,不利于蓄电池的深循环性能 ;电解液添加剂A对板栅与活性物质界面的钝化层有明显的改善作用 ,从而提高正极板深循环性
3) decomposition liquid density
分解液密度
1.
The results showed that under the optimum condition of decomposition liquid density of 1.
结果表明,在分解液密度为1。
4) current density distribution
电流密度分布
1.
Experiment on current density distribution on plate of different combinations of discharge electrodes with collecting plates;
电除尘器收尘极板表面电流密度分布实验研究
2.
Mathematical model of mixed electrode current density distribution;
混合电极电流密度分布的数值模型
3.
During the micro-electroforming process,the current density distribution in cathode surface has directly impact on the electro-deposition quality.
微细电铸过程中,阴极表面的电流密度分布直接影响沉积层的质量。
6) distribution of eddy current
涡电流密度分布
补充资料:铝电解厂16kV·A电解槽系列及电解多功能机组
铝电解厂16kV·A电解槽系列及电解多功能机组
铝电解厂16kV·A电解槽系列及电解多功能机组
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
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