... cathode parameter ==> 阴极参量 cathode particle ==> 阴极涂层粒子 cathode peaking ==> 阴极高频补偿,阴极高频峰化 ...
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The results show that small particle size, good connectivity among particles and high porosity of the cathode enhance the rate of electro-deoxidation.
结果表明:微孔阴极中的颗粒连通性好、颗粒尺寸小以及孔隙率高都有利于电脱氧的进行。
This product has a much finer average particle size than Fines making it suitable in the manufacturing of cathode materials for Lithium ion batteries and other specific applications.
这种产品有一种更好的平均粒径比最好的使其适用于制造锂离子电池阴极材料和其他中的具体应用。
The charged particle which enters the near cathode zone carries some energy.
进入近阴极区的带电粒子是携带有能量的。
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