1·The negative electrode of an electrolytic cell.
在电解池内的负电极。
2·Cathode: The negative electrode of an electrolytic cell.
阴极:在电解池内的负电极。
3·When Al alloy is used to be negative electrode, negative voltage produced more heat.
反极性期间由于铝合金作为阴极,阴极压降大电弧产热量也增大。
4·The content of indium in the negative electrode active material is 0.02 wt % or less.
所述负极活性物质中的铟含量在0.02重量%以下。
5·The negative electrode includes at least zinc as a negative electrode active material.
所述负极至少含有锌作为负极活性物质;
6·Various new negative electrode materials, other than carbon materials had been developed.
其中碳素材料之外的各种新型负板材料的探索也引起关注。
7·The negative electrode (1) is formed of metallic magnesium and may also be formed of an alloy.
所述负极(1)由金属镁形成,还可以由合金形成。
8·The protons eventually combine with the OH - ions from the negative electrode, and form water molecules again.
质子,最终结合起来,与哦-离子从负电极,形成水分子。
9·A magnesium battery (10) comprises a negative electrode (1), a positive electrode (2), and an electrolyte (3).
本发明涉及一种镁电池(10),其包含负极(1)、正极(2)和电解质(3)。
10·The capacity of this electrode is much larger than that of the negative electrode to limit its depth of discharge.
这种电极的容量远大于负极的,成为限制放电深度的电极。
1·Non-aqueous electrolyte secondary battery negative electrode material, making method, and lithium ion secondary battery.
非水电解质二次电池负极材料,制造方法,和锂离子二次电池。
2·The powder microelectrode cyclic voltammetric method was proved to be able to estimate the cyclic performance of carbon negative electrode materials in LIB.
同时也证明了粉末微电极循环伏安法用于估测LIB炭负极材料的循环性能的可行性。
3·The principle of estimating the cyclic performance of carbon negative electrode materials in LIB with the powder microelectrode cyclic voltammetric method was illustrated.
阐明了采用粉末微电极循环伏安法估测锂离子电池(LIB)炭负极材料的循环性能的原理。
4·These results might be of assistance to improve negative electrode technology of alkaline manganese dioxide zinc battery.
试验结果可能有助于改进碱性锌锰电池负极工艺。
5·Modifications of graphite materials for negative electrode of lithium ion batteries were reviewed. Natural graphite, artificial graphite and graphitic carbon fiber were discussed.
综述了用于锂离子电池负极的石墨材料的修饰与改性方法,所研究的石墨材料包括天然石墨、人造石墨和石墨化碳纤维。