Indium was a necessary component of substitutes for the mercury free alkaline zinc manganese battery.
铟是碱性锌锰电池无汞化代汞添加剂必不可少的组分。
With these characteristics, indium could play an important role like mercury in alkaline zinc manganese battery.
铟的这些特性使其在碱性锌锰电池中较好地起到代汞的作用。
The separator of alkaline manganese battery was manufactured by using PVA water soluble fiber, cotton pulp and synthetic fiber in this paper.
介绍了PVA水溶纤维作为增强剂在电池隔膜纸、印刷用纸、包装纸、嘴棒成型纸中的应用及工艺流程 ;
Our country is the biggest country which zinc manganese battery production is 200 hundreds million, and zinc for battery occupies 25% of total.
我国是锌锰电池生产大国,年产量达200亿只,电池用锌约占锌总消费量的25%。
The battery overcomes the disadvantage of inconvenience in using the one-time Lithium-Manganese battery with the prior steel-shell cylindrical shape.
它克服了现有钢壳圆柱形结构的一次性锂锰电池使用 不方便等不足之处。
The gloves protect him from the chemicals in the battery, which include nickel, cobalt and manganese, and shield the battery's delicate tissues from the natural oils on his fingers.
橡胶手套可以防护他不触及电池的化学物质,比如镍、钴和锰,同时还可以保护电池的精密组织,不被他手指上的天然皮肤油脂污染。
The chemicals used in Power Paper's battery are a combination of zinc and manganese dioxide-well-known elements used in other conventional batteries.
纸张电池公司生产电池的化学原料是大家熟知的常规电池原料,锌和二氧化锰的混合物。
The utilization of the active materials was higher than that of conventional alkaline manganese dioxide battery during high current discharge.
结果显示,它的活性物质的利用率在大电流放电时比普道碱锰电池的要高。
Alkaline manganese batteries with high capacity, stable work voltage, good low temperature property and long service life were widely used in all the primary battery.
在碱性电池中,碱锰电池具有容量高、工作电压比较稳定、低温性能较好、贮存寿命长等优点,其应用最为广泛。
The reclaiming and recycling methods of the reusing resources such as manganese powder? Carbon stick? Copper cap and zinc hull in the waste battery are introduced.
说明了废旧电池的危害,提出了对废旧干电池中锰粉、碳棒、铜帽、锌皮等可再利用资源的回收利用方法。
Porous manganese oxides have many important potential applications in rechargeable lithium battery, advanced separation technology, chemical sensing, catalysis and environmental protection.
多孔锰氧化物材料在可充锂电池、高级分离技术、化学传感、催化以及环保等领域有潜在的重要应用价值。
In this paper, the latest progress on lithium manganese oxide as cathode materials of lithium ion secondary battery was reviewed.
综述了最近几年对于锂离子二次电池正极材料氧化锰锂的研究。
This paper describes the application, production and quality of the manganese compounds used in battery industry. Comments have been made upon the research situation and prospects of these compounds.
对电池工业中应用的锰化合物的应用情况、生产现状及质量标准进行了分析,并就电池用锰化合物的研究现状及发展前景进行了阐述。
Layered manganese lithium ion battery cathode material is in line with this background needs.
层状锰系锂离子电池正极材料正符合此背景需要。
The new type of battery is composed of different layers: a zinc anode and a manganese cathode, among others.
这种新型电池由不同层次组成:锌阳极和锰阴极等。
When zinc electrode discharge in alkaline zinc-manganese dioxide battery, its reaction sequence in macroscopy was from zinc gelled near positive electrode to close to negative current collector.
讨论了碱性锌锰电池负极在放电时宏观上的反应顺序:从锌膏靠近正极部位逐渐进行到负极集流体周围。
There are various reasons for the failure of zinc manganese dioxide paper liner battery during its storage period.
锌锰纸板电池在贮存期间,电池失效的原因是多种多样的,但大部分为封口不严所造成。
The present invention provides a highly reliable manganese dry battery with excellent storage characteristics in which the drop in battery voltage during storage is suppressed.
本发明提供了一种具有出色的存储特性的高度可靠的锰干电池,其中储存期间的电池电压下降被抑制。
The invention relates to the battery manufacture technology field, in particular to a plastic casing zinc manganese dry battery, the production process and the special die thereof.
本发明涉及电池制造技术领域,具体涉及一种塑壳锌锰干电池及其制造工艺和专用模具。
These results might be of assistance to improve negative electrode technology of alkaline manganese dioxide zinc battery.
试验结果可能有助于改进碱性锌锰电池负极工艺。
By using the neurobehavioral core test battery (NCTB), 44 manganese exposed workers working in electrical arc welding and dry battery workshops were tested.
选择44名接触不同空气中锰浓度的干电池制造工和电焊工,进行了成套的神经行为功能测验。
The composition of spent alkaline manganese dioxide battery is very complicated.
废旧碱性二氧化锰电池成分复杂。
This article focused on the zinc-manganese dry battery disposal flow, and also paid attention to its composition and the battery recycling.
本文主要介绍废旧干电池的回收,锌-锰干电池的组成及处理工艺。
The invention relates to the battery manufacture technology field, in particular to a zinc manganese dry battery adopting a steel casing as the container, and the production process thereof.
本发明涉及电池制造技术领域,具体涉及一种采用钢壳作为容器的碳性锌锰干电池及其制造工艺。
The primary battery is composed of manganese dioxide used as a positive pole, metallic lithium uses as a negative electrode and organic electrolyte solution.
该产品以二氧化锰为正极,金属锂为负极,及有机电解质溶液组成。
Low mercury alkaline zinc-manganese dioxide battery were developed with domestic production line, raw materials and spare parts;
采用国产设备、原材料、零部件试制了低汞碱性锌锰电池;
This the LiFePo4 lot battery cells are agented by our company. NO lead, NO manganese.
这是我公司代理的磷酸铁锂系列圆柱形锂电池。不含铅锰。
A primary alkaline battery (10) has a cathode (12) including manganese dioxide, carbon particles, and binder.
一种碱性原电池(10),有阴极(12),阴极中包括二氧化猛、碳颗粒和粘合剂。
Study on the Preparation of Manganese Dioxide Anode Material and Additives in the Electrolyte for Mercury-free Rechargeable Alkaline Manganese Dioxide Battery;
无汞碱性电池专用电解二氧化锰是制造无汞碱性电池的关键材料。
Study on the Preparation of Manganese Dioxide Anode Material and Additives in the Electrolyte for Mercury-free Rechargeable Alkaline Manganese Dioxide Battery;
无汞碱性电池专用电解二氧化锰是制造无汞碱性电池的关键材料。
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