电池放电 meaning in Chinese
battery discharge
Examples
- Organic sulfides are to be oxidised to form polymers containing s - s bonds as charging , and polymers will be reduced to their low molecular monomer as discharging
这类物质在电池充电时,被氧化为含有s - s键的聚合物;在电池放电时, s - s键断裂,聚合物被还原为低分子量的有机硫化合物单体。 - So , we use a new method to measurement the battery ' s current index . we join a little resistance in the circuit , and use the loop current as the index for the shout current
包池短路电流的新方法:采地小电阻对电池放电进行电流值采样,把此小电阻放电时的回路电流值,作为碱锰电池的一项电流指标进行检测。 - Through mass polymerization and temperature elevating or the reaction time increase will improve the discharge capacity ( 90mah / g at first cycle ) and cycle performance ( discharge capacity of 75mah / g at 15th cycle ) of the battery
采用本体聚合并适当提高聚合的温度或延长聚合时间可以提高电池放电容量(首次90mah / g )和改善电池的循环性能( 15次循环后放电容量约75mah / g ) 。 - When reducing the discharge cut - off voltage of the second , the third , the forth step to 850 mv during activation , discharge capacity is improved remarkably , increasing about 24 mah . but middle point voltage decreases and internal resistance increases about 1 mq
( 2 )化成时降低电池第二、三、四步放电截止电压到850mv ,能显著提高电池放电容量,提高幅度达24mah左右,但中点电压有所降低、内阻也升高了将近1m ( ) 。 - The test results of sub - c type showed that middle voltage is higher with 50 u m alloy particle , la - rich alloy has perfect performance at high rate , ce - rich alloy is excellent at high rate and lower temperature , low co alloy is good to decreasing middle voltage except the less recycle life . experiments about the electrolyte showe d that the performance is optimized with contents : koh 78 % , naoh 20 % , lioh 2 % and density 1 . 300 g / cm3
对贮氢合金材料粒度和成份进行了粒度分布测试、成分分析和xrd扫描,并将材料制备成sc型电池进行大电流测试,结果显示,合金粒度在50 m时,电池放电平台高,富镧合金的大电流性能好,富铈合金有利于电池低温高倍率放电性能,合金中钴含量减少虽对电池的放电平台有利,但循环寿命短。