1) high rate during charging-discharging
大电流充放电性能
2) the maximal charge-discharge performance
最大充放电性能
1.
Based on the application characteristics of power storage battery in hybrid electric vehicle(HEV),the influencing factors and describing methods of the maximal charge-discharge performance were analyzed.
结合动力蓄电池在混合动力汽车(HEV)上的应用特点,分析了最大充放电性能的影响因素和描述方法,并使用车辆在城市和高速道路上的运行情况统计数据设计了新的实验程序,包括长持续期(30 s)和短持续期(10 s)两部分。
3) Large-current discharging performance
大电流放电性能
1.
The large-current discharging performance of quenched alloy was superior to that of as-cast alloy in which discharge capacity of was 269.
293V,大电流放电性能优于铸态合金。
5) charge-discharge performance
充放电性能
1.
Their charge-discharge performance and hydriding-dehydriding properties are investigated.
3),用EDXRF、XRD等方法分析了合金的组织成分,用LK98BⅡ微机电化学分析系统、PCT测试仪分别测试了合金的充放电性能和吸放氢性能。
2.
The charge-discharge performance of Ni-MH experimental batteries by using Co(Ⅱ)-coated Ni/Al(OH)x as cathode active material was studied by galvanostatic charge- discharge test.
采用化学沉淀法制备了不同覆钴量的铝掺杂氢氧化镍[覆Co(Ⅱ)-Ni/Al(OH)x]电极材料,并用X射线衍射光谱法(XRD)和粒度分布仪表征了其晶体结构和粒度分布,用恒流充放电实验测试了以其为正极活性物质组装成MH-Ni试验电池的充放电性能。
3.
The charge-discharge performance of Ni/MH experimental battery made of Co(Ⅱ)-coated Ni/Al(OH)x cathode active material was studied by galvanostatic charge-discharge test.
采用化学沉淀法制备了覆Co(Ⅱ)-Ni/Al(OH)x电极材料,并用XRD、SEM和粒度分布仪研究了材料的晶体结构、表观形貌和粒度分布,以恒流充放电实验测试了以其为正极活性物质组装的MH/Ni试验电池的充放电性能。
补充资料:大电流放电
分子式:
CAS号:
性质: 电池放电时,电流值不小于1C放电率的放电(C指电池的额定容量)。又称大电流放电。
CAS号:
性质: 电池放电时,电流值不小于1C放电率的放电(C指电池的额定容量)。又称大电流放电。
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