本文介绍了锂离子蓄电池的主要性能特点。
This paper introduces the main properties of lithium ion batteries.
综述了锂离子蓄电池锡基负极材料的研究。
Studies of tin based anode materials for lithium ion secondary battery have been reviewed.
锂离子蓄电池是新一代高比能量的化学电源。
Lithium ion accumulator is a new generation of high proportional energy chemical battery.
所以CHB是锂离子蓄电池优良的过充保护添加剂。
All these advantages promise CHB to be an ideal overcharge protection additive in lithium ion batteries.
在国外,加速量热仪(ARC)已被广泛应用于锂离子蓄电池的研究。
Accelerating rate calorimeter (ARC) is suitable to studying both the thermokinetics and thermodynamics of lithium ion battery.
该研究为锂离子蓄电池特别是锂离子动力电池的设计提供了新的思路。
The study provides new way for designing Liion battery, especially the power battery.
应用软包装技术成功开发出053048型液态软包装锂离子蓄电池。
The 053048 type liquid state soft-package lithium-ion batteries were successfully prepared by applying soft-package technology.
在锂离子蓄电池研究中,为寻找合适的电液,进行了有机混合电液的研究。
We have done the research of organic mixed electrolyte to find appropriate electrolytes in the filed of lithium battery.
有关锂离子蓄电池正极材料的研究大部分集中在过渡金属嵌锂氧化合物上。
Much attention is paid to the transitional metal oxides as the cathode materials for lithium ion batteries.
研究了不同阴极导电剂含量对锂离子蓄电池的充放电性能和阻抗性能的影响。
The influence of cathode conductive agent content to battery performance and AC impedance were investigated.
如果像特斯拉跑车那样用上6831个锂离子蓄电池组电池所需时间就更长了。
If you use 6, 831 of them, as a Tesla sports car does, that time does tend to drag on.
锂离子蓄电池是新一代高比能量的化学电源,广泛应用于移动通讯和电子电器等行业。
Lithium ion battery is new generation of chemical power sources with high energy density, which was already widely used in the fields of mobile communication and electric devices.
比较了各种嵌锂炭质材料为负极的锂离子蓄电池的主要性能,并对其实用性作了探讨。
The main performances of lithium-ion battery with carbonaceous anode intercalated lithium were compared and the practicality were explored.
介绍了聚合物锂离子蓄电池的主要性能特点,采用的聚合物固体电解质体系和市场前景。
The main performance, characteristics and the market prospect of polymer lithium ion batteries are introduced as well as the solid polymer electrolyte it adopted.
采用电镀法在铜箔上制得了金属锡电极,用作锂离子蓄电池阳极材料进行了电化学测试。
The metal tin electrodeposited on cupper foil was used as anode material of lithium-ion batteries.
对锂离子蓄电池正极材料钴酸锂的高需求及其高价格,推动了钴的湿法回收工艺的进步。
The increasing demand and expensive price on lithium-ion battery cathode material LiCoO2 have prompted the recovery progress of cobalt by hydrometallurgical processes.
表面包覆是一种非常简便有效的改善锂离子蓄电池正极材料性能的方法,很具有应用前景。
Surface coating is a very simple and effective method to improve the performance of lithium ion secondary batteries and has great potential.
摘要:锂离子蓄电池是新一代高比能量的化学电源,广泛应用于移动通讯和电子电器等行业。
Abstract: : Lithium ion battery is new generation of chemical power sources with high energy density, which was already widely used in the fields of mobile communication and electric devices.
电解质是制备比功率大、比能量高、循环寿命长和安全性能良好的锂离子蓄电池的关键材料之一。
Electrolyte is one of the key materials in making rechargeable lithium-ion batteries with high power and energy density, long cycling life and desirable safety.
第三方检测机构依托强大的技术实力和公正态度对锂离子蓄电池的安全性能做出有效的监督和判断。
The third testing organization possesses strong technique background and bases on fair attitude to effectively test the safety of lithium ion batteries.
测试了锂离子蓄电池电镀锡阳极在不同充电(合金化)状态和不同充放电循环次数后的电化学阻抗谱。
The impedance spectrum of the electroplating tin anode for Li-ion batteries is measured at various states of charge(alloying)and after charge-discharge cycles.
针对锂离子蓄电池在充放电过程中容易出现的过充、过放、过流、过温问题,设计了基于软硬件保护的锂离子蓄电池保护电路。
According to the problems in charging and discharging process of lithium-ion battery, a kind of protection circuit based on software and hardware was designed.
以大功率石墨电极废品破碎后的微粒为“核”,以中温沥青为包覆原料,经化学沉积包覆形成“核-壳”型锂离子蓄电池负极材料。
Particulate of graphite electrode wastes from an electric-carbon materials factory was formed "core-shell" negative materials by chemical deposition coating with medium pitch.
采用气相色谱方法对电池在化成阶段和储存阶段产生的气体进行了分析,初步讨论了聚合物锂离子蓄电池在化成阶段产生气体和储存阶段发生气胀的原因。
The gases generated in polymer Liion battery during formation process and storage process were analyzed by means of gas chromatography (GC), and the reason of the gas generation was discussed.
传统的锂离子以及金属氢化物镍蓄电池中所含有的活性物质被放置在一个薄膜中。
Conventional lithium-ion or nickel metal hydride rechargeable batteries contain active material that is placed into a thin film.
这种电极可以在4000此循环充电后继续维持83%的能源,仍可在用,而相比之下,蓄电池只能循环充电几百次,锂离子电池可以循环1000次。
The electrodes maintain 83 percent of their charge capacity after 40, 000 cycles-in comparison, lead-acid batteries last a few hundred cycles, while lithium-ion batteries typically last for 1, 000.
锂离子电池、液流电池、钠硫电池、铅酸蓄电池、铅碳电池、锌溴电池等化学储能产品。
Lithium ion battery, flow cell, sodium sulfur battery, lead acid battery, lead carbon battery, zinc bromine battery and other chemical energy storage products.
锂离子电池、液流电池、钠硫电池、铅酸蓄电池、铅碳电池、锌溴电池等化学储能产品。
Lithium ion battery, flow cell, sodium sulfur battery, lead acid battery, lead carbon battery, zinc bromine battery and other chemical energy storage products.
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