The coercive force gradually decreased with the MnO2 content increase.
而矫顽力则随掺杂量的增多持续下降。
The technical difficulty of mercury-free for alkaline Zn-MnO2 butt on cells was introduced.
介绍了实施无汞扣式碱性锌锰电池的技术难度;
However, doping in the zirconium couldn't improve MnO2 sample's electrochemistry performance.
但掺杂二氧化锆不能提高二氧化锰样品电化学性能。
However, a conductive, organic, polymer replaces the MnO2 as the cathode plate of the capacitor.
但该电容器中由一种具导电性的有机聚合物代替MnO2作为电容的阴极极板。
Stability of the weight of cathode ring is an important factor that affects the quality of alkaline Zn-MnO2 battery.
正极粉环重量的稳定性是影响碱性锌锰电池质量的重要因素之一。
The practices of battery production and experiments indicated that, the positive admixtures were key materials for high quality alkaline Zn MnO2 batteries.
多年的电池生产经验以及电池试验表明:正极混合料是制造优质碱锰电池的关键材料之一。
The results show that the reaction rates of absorption and desorption are greatly different among the Mg-Ni-MnO2 hydrogen storage materials with different particle sizes;
计算结果表明:不同颗粒直径的镁-镍-氧化物储氢材料的吸放氢反应速度差别较大;
Differences between conductive polymer tantalum electrolyte capacitors and MnO2 tantalum electrolyte capacitors in structure, production process and performances are compared.
比较了导电高分子钽电解电容器和二氧化锰钽电解电容器在结构、制造工艺和性能方面的差别。
A new technique had been developed for measuring discharge curves of dry cells as well as the electrode potential of MnO2 and Zn electrode potential and internal resistance simultaneously.
本文提出了测量电池放电电压曲线的同时测量二氧化锰电极电位,锌电极电位和电池内阻变化的新技术。
The present status and direction of technological design of alkaline Zn/MnO2 battery were analyzed by dissecting different brands of batteries, observing the internal structures of batteries.
通过剖析不同品牌的电池,观察电池的内部结构,分析了目前碱锰电池工艺设计的现状及趋向; 指出了技术改进和提高质量应注重的工作。
The present status and direction of technological design of alkaline Zn/MnO2 battery were analyzed by dissecting different brands of batteries, observing the internal structures of batteries.
通过剖析不同品牌的电池,观察电池的内部结构,分析了目前碱锰电池工艺设计的现状及趋向; 指出了技术改进和提高质量应注重的工作。
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