battery electrolyte
英 [ˈbætri ɪˈlektrəlaɪt]
美 [ˈbætəri ɪˈlektrəlaɪt]
网络 电池电解液; 电池电解质; 蓄电池电解液; 电池组电解质
双语例句
- Electrochemical performance of Li-ion battery using LiBC_2O_4F_2 electrolyte
用LiBC2O4F2电解液的锂离子电池的电化学性能 - The application of xylene in Li-ion battery electrolyte
二甲苯在锂离子电池电解液中的应用研究 - Check the level of coolant, brake fluid, windshield detergent and battery electrolyte ( except maintenance-free battery) and check if there is leakage.
检查冷却液、制动液、风窗洗涤液、蓄电池电解液(非免维护蓄电池)、等的液面及有无泄漏。 - Study on H~+ ion Reduction During Charging of Rechargeable Li-Air Battery with Aqueous Electrolyte
水溶液二次锂空气电池充电过程中氢离子还原研究 - Research for Measuring Specific Gravity of Battery Electrolyte by Ultrasonic
蓄电池电解液比重的超声波测量研究 - The Gold Award went to the entry'Waste Battery& Battery Acid ( Electrolyte) Collecting Machine'from the Hong Kong Jockey Club.
金奖落于香港赛马会的「弃置电池及溶液安全处理设备」项目。 - The main reasons of the battery capacity degradation are analyzed. Battery electrolyte concentration is too high, and the charge upper limited voltage ( includes float charge and average charge voltage) is too low, these cause the sulphation.
分析了由于该类型号电池电液浓度过高,加之充电(包括浮充和均充电压)上限电压过低而导致电池的硫酸化,是电池容量锐减的主要原因之一; - Great importance is attached to the lithium-ion rechargeable battery electrolyte and additive.
锂离子蓄电池电解液及其添加剂的研究日益受到研究者的重视。 - Research progress of molten nitrate salts as thermal battery electrolyte
用低共熔硝酸盐作为热电池电解质的研究进展 - In this type of battery, the electrolyte is immobilized.
在这种式样的蓄电池中,电解液是不流动的。 - Especially, the battery with electrolyte saturated by zinc oxide and indium oxide shows excellent charging-discharging performance and charge retention capacity as well as its cycle life.
在电解液中同时添加氧化铟和氧化锌可提高电池的充放电效率和荷电保持能力,电池的循环寿命也得到提高。 - An additive is an effective means to improve the lithium-ion rechargeable battery electrolyte. Present progress of the additives of lithium-ion rechargeable battery electrolyte was stated, such as the additive of SEI formation, the additive of conductivity improvement, the additive of battery protection.
添加剂是有效改善锂离子蓄电池电解液性能的手段,概述了目前添加剂几个主要方面&SEI成膜添加剂、电导率提高添加剂、电池安全保护添加剂的研究进展。 - This paper is about rapid method to remove the impurities in battery electrolyte.
本文是关于从电液中去除杂质的快速方法。 - It was believed that the travel distance of electric bicycle may be extended by long cycle life battery with gel electrolyte.
认为,胶体电解质铅蓄电池循环寿命长,可显著提高电动自行车的行驶里程。 - The immersion test and the anodic polarization curve test were carried out to study the corrosion resistance and the corrosion behavior of the coating in the environment of lead-acid battery electrolyte. The applicability of Pb-Sn plated aluminum for lead-acid battery grids was confirmed preliminarily.
最后通过浸泡实验和阳极极化曲线测试了镀层在铅酸蓄电池电解液环境中的耐蚀性和腐蚀行为,初步验证铝基电镀铅-锡合金材料作为铅酸蓄电池板栅材料是合适的。 - This article introduces some research fruits of the battery electrolyte additive home and abroad since the last century.
介绍一个多世纪以来,国内外对蓄电池电解液添加剂的研究成果与评价。 - The choice research of the mobile car storage battery electrolyte specific weight
机动车铅蓄电池电解液比重的选择研究 - The results indicated that the lithium-sulfur battery with gelled electrolyte had better cycle ability, higher specific capacity and higher specific energy.
结果表明:胶态锂硫电池比液态锂硫电池具有更好的循环性能、更高的比容量和比能量。 - Preparation and Characterization of LiPF_6 for Li-ion Secondary Battery Electrolyte
锂离子二次电池电解质材料LiPF6的制备及表征 - VRLA Battery Electrolyte Retaining Material
VRLA蓄电池电解液的保持体 - This paper focus on problems such as low conductivity of ionic, poor electrode compatibility exist on lithium-sulfur secondary battery with polymer electrolyte, combined with Polysulfide compound which has the characteristics of excellent bonding, hydrophobic and solidify easily.
本文针对锂硫二次电池用聚合物电解质所存在的离子导电率低,电极相容性差等难题,结合聚硫系化合物优良的的粘结性、疏水性并且易固化性。 - The main results are as follows: 1. Spent sulfuric acid battery electrolyte composition of complex.
主要研究结果如下:1.铅酸蓄电池废电解液硫酸的成分复杂。 - This paper presents opening lead-acid battery electrolyte density ultrasonic measurement.
本文针对开口式铅酸蓄电池研究了超声波电解液密度测量方法。 - They have the potential of becoming commercialization Lithium-ion battery electrolyte which are the base of the research and development of lithium salts in the future.
有发展为商品化锂离子电池电解质锂盐的潜能。为今后新型锂盐的研究和发展奠定了理论基础和实践基础。 - The above results will provide a foundation for ionic liquid applying in the battery as electrolyte.
此项工作为离子液体作为电解质在电池中的应用奠定了基础。 - As one of the core materials of lithium ion battery, electrolyte has an extreme impact on capacity and temperature performance.
电解液作为锂离子电池的重要组成部分,对电池的温度特性、容量发挥等有重要影响。 - In China research and industrialization on lithium-ion battery electrolyte salts has not been received advancement at present, lithium electrolyte salts all depend on import.
当前,我国锂离子电池电解质盐的相关研究及产业化一直未取得突破,国内所需电解质锂盐因无国产能力全部依赖进口。 - In recent years, it becomes the hot spot of research in battery field. Electrolyte is the main component part of lithium ion. So its performance is very important.
电解液是锂离子蓄电池的重要组成部分,因此电解液的性能优劣显得非常重要。 - As one of the most important parts of battery, electrolyte can affect the performances of capacity, resistance and cyclic life.
电解液作为电池中最重要的一部分,对电池的容量、内阻、循环寿命等性能有着重要的影响。 - Lithium-ion battery electrolyte material selection have a great impact on the performance of the battery.
锂离子电池的电解质材料的选择对电池的性能有很大的影响,因此,发展新型的电解质锂盐材料对推进电池的发展至关重要。