D.循环稳定性(cyclic stability):生态系统经过一系列变化后仍能恢复原来的状态的特性【13】。是具循环演替的生态系统的另一种稳定形式。
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球磨表面包覆对镁基贮氢合金电化学性能的影响 - TNMSC 关键字: 表面包覆; 镁基贮氢电极; 循环稳定性[gap=1031]Key words: surface coating; Mg-based hydrogen storage electrodes; cycle stability
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... 循环塑性 cyclic plasticity 循环稳定性 cycling durability 循环形变 cyclic straining ...
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The results of the electrochemical measurement indicate that the cycle stability of the alloy monotonously rises with increasing Pr content.
电化学测试的结果表明,合金的循环稳定性随Pr替代量的增加而增加。
参考来源 - Pr替代La对LaThe experiment on the element substituted al-loysCe1-xLaxNi3.6Al0.65Cu0.75(x=0,0.2,0.4,0.6,0.8,1) indicated that the maximumdischarge capacity increased when the La content increased,and the right amountof Ce is good for improving its cycling stability.
筛选出经过元素替代的合金Ce1-xLaxNi3.6Al0.65Cu0.75(x=0,0.2,0.4,0.6,0.8,1)放电性能较好,随着La的含量的增加,合金电极的最大放电量增大,适量的Ce的含量有利于提高合金电极的循环稳定性。
参考来源 - CeTo find the materials with high capacity, high cycleability and easy process is an important issue in developing thin-film lithium-ion battery.
寻找新型的高容量、高循环稳定性且便于制备的电极材料已成为薄膜锂离子电池发展中需要解决的重要课题。
参考来源 - 锑及锑锡合金薄膜的电化学吸放锂性能研究The discharge capacity of initial cycle is 127 mAh·g-1,103.6 mAh·g-1 and 91 mAh·g-1 under the ratio of 0.1C(16 mA·g-1),0.2C and 0.5C,respectively and there is no significant degradation even after 15 times cycling,and the cycle stability of material is very well.
在0.1C(16 mA.g-1)、0.2C、0.5C下的首次放电比容量为127 mAh.g-1、103.6 mAh.g-1和91 mAh.g-1,15次循环后无明显衰减,具有很好的循环稳定性。
参考来源 - Al~(3+)掺杂对Li·2,447,543篇论文数据,部分数据来源于NoteExpress
优异的高低温循环稳定性并有良好的机械加工性。
Excellent high and low temperature cycle stability and has good mechanical processing of.
此外,过化学计量比合金亦呈现较好的循环稳定性。
Furthermore, the over-stoichiometrical alloys show much better cycle stability.
实验结果表明,少量锰的掺杂能有效地提高材料的循环稳定性和可逆容量。
The experimental results showed that Mn doping in small quantity was effective to improve the cycle stability and reversible capacity of the material.
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