1) lithanode
[铅蓄电池中的]过氧化铅
2) Lead acid battery
铅蓄电池
1.
Study on the utilization of positive active mass in lead acid battery;
铅蓄电池正极活性物质利用率
2.
Study of additives for tubular positives in lead acid battery;
铅蓄电池管式正极活性物质添加剂的研究
3.
The effects of chargers on battery performance and the research status of charge regimes for EB lead acid battery were reported too.
简要介绍了国内电动自行车和电动自行车用铅酸动力电池的发展情况以及铅酸动力电池的最新发展技术,即水平铅布蓄电池、卷绕式铅酸蓄电池以及胶体电池;同时介绍了电动自行车用铅蓄电池的充电器和充电模式方面的进展状况;针对电动自行车对电池所提出的要求,指出铅蓄电池只要提高比能量、循环寿命及快充能力,凭借其优良的性能价格比,仍然是现阶段电动自行车以及电动汽车的首选电源。
3) lead accumulator
铅蓄电池
1.
The paper introduces ingredients of waste lead accumulator and effective way of produceing lead alloys and lead salt.
本文介绍了废铅蓄电池的组成和用以制取铅合金及铅盐的有效方法。
2.
Abnormal operation and failure in lead accumulator mainly involves increase and decrease of electrolyte,sulphidization,bend,rupture,short circuit,reversed pole of pole-plate,excessive separation of active substance,impure electrolyte,increase of internal resistance and overcharge of accumulator.
铅蓄电池常见的不正常运行和故障主要有电解液量减少或增多、极板硫化、极板弯曲、断裂、短路、反极、活性物质过量脱离、电解液不纯、内阻增大、电池过充等。
3.
The article explained the relation of lead accumulator e.
阐述了铅蓄电池电动势与放电强度及放电时间的关系、铅蓄电池电解质密度与放电强度及放电时间的关系,提供了一系列试验数据,对设计大功率铅蓄电池有一定参考价值。
4) lead-acid battery
铅蓄电池
1.
Research on lead-fiber grid wound lead-acid battery for electric bicycles;
电动自行车用铅布卷绕铅蓄电池的研究
2.
Analysis of safe transportation tests for the lead-acid battery;
铅蓄电池安全运输试验分析
3.
Present situation and prospect of the lead-acid battery market in China;
中国铅蓄电池的市场现状与展望
5) lead-acid batteries
铅蓄电池
1.
Research on the stability of humic acid in lead-acid batteries;
铅蓄电池中腐植酸的稳定性研究
2.
Discussion on the way to improve the specific energy of lead-acid batteries;
漫谈提高铅蓄电池比能量的途径
3.
Use and maintenance of lead-acid batteries for EB;
电动自行车用铅蓄电池的使用与维护
6) lead storage battery
铅蓄电池
1.
Determination of Sn,Ca and Al in Lead Electrode Plane of Lead Storage Battery by AAS;
原子吸收光谱法测定铅蓄电池板栅中锡、钙和铝
补充资料:铅蓄电池合金
分子式:
CAS号:
性质:由于铅在硫酸中具有良好的耐蚀性,所以铅合金大量用作蓄电池材料。常用的铅蓄电池合金含有7%~12%锑和0.1%~0.5%锡,余量为铅。加入锑可以提高强度和硬度,并提高在硫酸中耐蚀性。熔融法制备。
CAS号:
性质:由于铅在硫酸中具有良好的耐蚀性,所以铅合金大量用作蓄电池材料。常用的铅蓄电池合金含有7%~12%锑和0.1%~0.5%锡,余量为铅。加入锑可以提高强度和硬度,并提高在硫酸中耐蚀性。熔融法制备。
说明:补充资料仅用于学习参考,请勿用于其它任何用途。
参考词条