该类材料可以广泛地作为各种锂离子电池的负极材料,并可以作为电容器的电极材料。
This kind of material can be used as negative electrode material of diversified lithium ion battery widely, and as electrode material of capacitor.
从充电倍率、负极材料的种类以及正负极材料的电容量匹配等方面,研究了锂离子电池的过充电行为。
The overcharge behavior of Li-ion batteries was studied from the rate of charge, the type of the anode materials and anode to cathode capacity ratio.
介绍了铝电解电容器负极用素铝箔的种类及其特征,阐述了其加工制造过程中的质量控制要素。
Introduced variety and character of negative native aluminum foil using electrolyze capacitor, and expounded quality control keys for producing process, too.
由于碳基电容器正极容量远小于负极容量,所以本文主要致力于开发新的正极材料与作为负极的碳电极组成混合电容器。
The paper also found that the positive carbon electrode was much smaller than that of negative one, so it urged to develop new positive material to make up hybrid capacitor.
电池反应所引起的负极金属表面阻抗的增加,是放电容量减小的主要原因。
The main cause of discharge capacity decrease was the impedance of metal surface increased due to cell reaction.
介绍连铸连轧法试制电解电容器用铝质负极箔的工艺研究过程。
We hereby give a brief introduction of the process using continuous casting& rolling method to produce aluminum cathode foil for electrolytic capacitor.
研究了拉网铜板栅对负极活性物质转化过程及对VRLA电池放电容量的影响。
The effects of expanded grid of copper on discharge capacity and transformation process of negative active material of the VRLA battery were investigated.
在0-1.1V电压范围内通过与炭材料负极组成并联回路提高电容器电容值并降低体系内阻。
Thereinto, in range of 0-1.1 V, both AC in the positive and negative electrode assemble as a symmetry structure via parallel connection which offer more capacitance and less internal resistance.
在0-1.1V电压范围内通过与炭材料负极组成并联回路提高电容器电容值并降低体系内阻。
Thereinto, in range of 0-1.1 V, both AC in the positive and negative electrode assemble as a symmetry structure via parallel connection which offer more capacitance and less internal resistance.
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