high rate discharge meaning in Chinese
高速率放电
Examples
- Moreover , the batteries can endure long time overcharge with the increase of the koh concentration . the change of koh concentration has little effect on the high rate discharge capability
而且,随着koh浓度的升高,电池的耐过充性能也越好,在本研究范围内, koh浓度的变化对高倍率性能没太大影响。 - By contrasting the lioh or naoh data to koh at 7m and 8m , the change of the li + or na + concentration has little effect on the discharge capacity , internal resistance , voltage plateau and high rate discharge capability
通过与koh浓度在7m与8m的数据进行对比,结果发现, li或na离子浓度的改变对放电容量、内阻、电压平台以及高倍率性能影响不明显。 - Optimization of prescription especially additives , conductors and binders of the negative is an efficient and economical approach to improve the performances of ni / mh battery during the high rate discharge phase , but till now the related studies are not enough
优化mh电极配方,特别是添加剂、导电剂和粘结剂是快速提高电池大电流放电性能的一个有效和经济的途径,而这方面的研究还比较少。 - The results show : la2o3 , ceo2 , nd2o3 is applicable for the additives of mh electrode because of the good comprehensive performance of the negative especially during the high rate discharge phase ; y2o3 is not fit as an additive for mh electrode ; the ceo2 content in negative has great effects on the performance during the high rate discharge phase and 2 % ( mass percentage ) is the best one , furthermore , the improvement of purity of ceo2 is beneficial to the comprehensive performance ; the mixture of coo and ceo2 as a additive is more suitable for mh electrode during the high rate discharge phase whose properties are better than that of addition of coo and ceo2 respectively
研究表明, mh电极中添加la _ 2o _ 3 、 ceo _ 2 、 nd _ 2o _ 3显著提高了电极电化学综合性能,尤其是大电流放电性能,适宜作大电流放电下电池负极的添加剂; y _ 2o _ 3不适宜作负极添加剂; ceo _ 2添加量对大电流放电性能影响较大, ceo _ 2的适宜添加量2wt ;提高ceo _ 2纯度能改善mh电极电化学综合性能。 mh电极中添加coo 、 ceo _ 2复合添加剂后电极综合性能比单独添加coo和ceo _ 2更优良,适宜作大电流放电下电池负极的添加剂。 - Now the ion conductivity of gel polymer electrolyte ( gpe ) can reach the magnitude of 10 - 3s / cm , which can satisfy the practical request . however , it is still lower than that of liquid electrolyte ( 10 - 2 s / cm ) , which causes the fall of high rate discharge and low temperature performance of lithium battery
目前凝胶聚合物电解质( gpe )的室温离子电导率可达10 ~ ( - 3 ) s cm数量级,已经能基本满足应用的要求,但相比液态电解液的电导率( 10 ~ ( - 2 ) s cm ) , gpe的电导率仍然偏低,使得凝胶聚合物锂离子电池的高充放电速率和低温性能都大大的降低。