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- We shall emphasize to develop and demonstrate electric motor automobiles,and research their industrialization and power Lithium ion battery and key materials. 重点开展电动汽车开发、示范及产业化研究;动力锂离子电池及关键材料研究。
- We shall emphasize to develop and demonstrate electric motor automobiles, and research their industrialization and power Lithium ion battery and key materials. 重点开展电动汽车开发、示范及产业化研究; 动力锂离子电池及关键材料研究;
- Study on moderate power lithium ion battery 中等功率型锂离子蓄电池的研究
- high power lithium ion battery 锂离子动力电池
- power lithium ion battery 动力锂离子电池
- Electrolyte is one of the key materials of synthesis of lithium ion battery of high density of power,high density of energy, long circular life and good capability of security. 电解质是制备高功率密度、高能量密度、长循环寿命和安全性能良好的锂离子电池的关键材料之一。
- The principle of the fuse in the circuit for the lithium ion battery protects. 锂离子电池保护电路中熔断器的实现原理。
- The developing status of lithium ion battery for HEV was introduced. 最后介绍了电动车用锂离子电池的研究开发情况。
- PVDF-HFP based membranes for polymer lithium ion battery were prepared by wet process. 采用湿法以PVDF-HFP(聚偏氟乙烯-六氟丙烯)为本体聚合物制备了聚合物锂离子电池用隔膜。
- power lithium ion batteries 锂离子动力电池
- The influences of SEI and electrolyte conductance was investigated when lithium ion battery was discharged in high current. 研究了SEI膜及电解液电导率等对锂离子电池大电流放电性能的控制作用。
- Aluminum in lithium ion battery can also used as reducer to reduce cobalt oxides. 电池中的铝也能作为还原剂来还原钴氧化物。
- This paper researched on high rate discharge performance in lithium ion battery. 对锂离子电池高倍率放电性能进行了研究。
- After reducing smelt spent lithium ion battery in arc furnace,the recovery ratio of cobalt and coppe... 用电弧炉还原熔炼后;钴回收率78.;63%25;铜回收率81
- No water high chlorine acid lithium used as the oxidant of rocket fuel, and the request of production the lithium ion battery electrolyte. 项目简介无水高氯酸锂用作火箭燃料的氧化剂,在电池行业用于生产锂电池电解液及化学试剂。
- An ICP-AES method for the determination of impurity composition Ni, Fe, Na, Ca in electrode material of lithium ion battery was established. 研究建立了电感耦合等离子发射光谱(ICP-AES)法测定锂离子电池电极材料中杂质成份镍、铁、钠、钙的分析方法。
- Recently , people find that LiMPO_4 is the anodal material of potential lithium ion battery with the above fine performance . 最近,发现LiMPO_4是具备以上优良性能的潜在锂离子电池正极材料。
- Besides, researches and designs of the electrode and the battery were proposed for the high discharge current lithium ion battery. 并针对大电流放电锂离子电池提出了电极及电池设计研究方向。
- A good many factors affecting the performance of practical lithium ion battery system were investigated with many physical, chemical and electrochemical detecting means. 采用多种物理、化学及电化学分析测试手段,对实际锂离子电池体系中影响锂离子电池阴极行为的诸多因素进行了研究。
- The influence of electrode drying condition on crystallization of PVDF has been studied in the lithium ion battery where PVDF acted as the binder of electrode. 研究了以聚偏氟乙烯(PVDF)作为正负极粘结剂制造锂离子电池,极片干燥条件对聚偏氟乙烯(PVDF)的影响大。
