1) fast cycle life
快速循环寿命
1.
A high temperature and heavy wet solidification process is taken to make plate, fast cycle life was improved by 25%.
极板采用高温高湿固化工艺,快速循环寿命可提高约1/4。
2) quick life
快速寿命
1.
Further more,the microstructure,chemical components, electrical resistance,mechanical properties and quick life of Cr20Ni80 alloy and Cr20Ni35 alloy from different manufacturers in china were comparied.
当合金中含铬量较高,夹杂物含量较高、尺寸较大时,合金的电阻率值较高;合金晶粒越细,合金的室温力学性能越好;夹杂物含量越高,尺寸越大,合金的快速寿命就越低。
3) cycle life
循环寿命
1.
Effect of boron on the discharge capacity and cycle life of rare-earth-based AB_5-type hydrogen storage alloy;
硼对稀土系AB_5型贮氢合金电化学容量及循环寿命的影响
2.
Measures on improving cycle life of motive power VRLA batteries;
提高动力用VRLA电池循环寿命的措施
3.
Disscussion on charge acceptance and cycle life of VRLA batteries for electric bicycles;
电动车用VRLA蓄电池的充电接受与循环寿命探讨
4) cyclic life
循环寿命
1.
The influence on C 5 and C 2 of plate thickness and electrolyte additive has been researched and the effect of different discharge modes on cyclic life were compared.
通过对比不同厚度极板及不同电解液添加剂对电池C5、C2 的影响 ,并对比不同放电方式对电池循环寿命的影响 ,为电动助力车用密封电池的设计开发提供依据 ,并开发出性能优良的电动助力车用蓄电
2.
The cyclic test results showed that the battery with proper density and quantity of electrolyte had excellent performance of capacity and cyclic life.
电池循环试验结果表明:采用恰当的电解液密度和电解液用量,蓄电池具有良好的容量和循环性能,5A100%(DOD)放电的循环寿命超过300次;电池组容量的均匀性与负极活性物质的硫酸盐化是影响蓄电池组循环寿命的重要因素。
5) cycle lifetime
循环寿命
1.
The cycle lifetime of the AA type nickel-metal hydride battery was studied.
1化合物为负极材料的AA型镍-金属氢化物电池的循环寿命进行了研究,实验发现MmNi3。
2.
The charge-discharge properties and cycle lifetime of Mm xNi 3.
95)合金的充放电特性及循环寿命。
6) cycling life
循环寿命
1.
Studies on improving the cycling life of lead-acid batteries;
提高铅酸蓄电池循环寿命的研究
2.
Effect of positive paste density and tin content of grid on cycling life;
正极铅膏密度和板栅锡含量对循环寿命的影响
3.
Effects of additives (RSO_3H) on the cycling life of positive electrode in lead-acid batteries;
添加剂(RSO_3H)对铅酸蓄电池正极循环寿命的影响
补充资料:循环系统的进化鱼的循环系统
李瑞端绘
[图]
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