锌电池

含参比电极的模拟二次锌电池

Simulative Secondary Zinc Battery With Installed Reference Electrode

作者提出运用N2O-C2H2火焰原子吸收光谱法测定银锌电池纯银中的铁含量。

A new method of N2O-C2H2 flame atomic absorption spectrometry to measure iron content in the pure silver of silver-zinc cell was studied .

提高氯化锌电池间放容量的途径

A Way to Improve Intermittent Discharge Performance of Zinc Chloride Battery

氯化锌电池工艺对炭棒头出水的影响

Influence of Zinc Chloride Battery Process on Leakage of Carbon Rod

高氯化锌电池添加剂的研究

Study of Additives in Zn-MnO_2 Cell Consisting of High Concentration of ZnCl_2

其中在电极或电解液中添加一种或多种添加剂是改善锌电池性能最常用、最有效的方法。

The most useful method is to add additives to the electrode or electrolyte .

高能一次镍锌电池正负极活性物质性能研究

Study on Active Materials of Primary Ni-Zn Battery

氯化锌电池的密封及检测

Sealing of High Power Battery arid Its Measuring

公司成立后就开始投资专业生产各类电池，如碳锌电池，镍氢电池等等。

Start beginning , we invested in production of different batteries like Zinc and NiMH .

氯化锌电池的一种新结构

An Improved Structure of Zinc Chloride Battery

而作为基体材料的镍在电解液中具有较高的稳定性，应用于碱性锌电池中不仅有利于改良电池的性能，而且作为蓄电池的负极材料有利于电极基体材料的回收和电极本身的再生。

Nickel as basic material of the electrode is very stable in the electrolyte , and is advantageous to recovery and regeneration of the electrode .

在正极活性物质中添加少量稀土金属化合物1~和树脂A对高氯化锌电池的放电性能有较好作用，可以提高放电电压和容量。

And the performance of the cell , discharge voltage and capacity can be improved by adding a little rare earth metal compound No. 1 and resin A in active material of positive .

连续化带状泡沫镍是镍氢、镍镉、镍锌电池的关键材料，是国家“八六三”计划重点攻关项目。

The continuous band-shaped nickel foam , a key material of Ni-MH . Ni-Cd , Ni-Zn batteries , is registered as a focal item to be tackled in the National " 863 " Project .

无汞碱性锌锰电池专用EMD的性能特点

Performance of Special EMD for Hg-free Alkaline Zn / MnO_2 Battery

以锌碳电池和碱性锌锰电池为实验对象，通过固体废物浸出毒性试验，探讨废电池在不同破坏程度、不同pH值和不同浸取级数条件下的浸出规律。

The leaching rules of heavy metals from Zinc-C and alkaline Zinc-Mn dry battery have been studied at different pH-values , destruction levels and leaching grades .

有机添加剂对碱性锌锰电池MnO2电极性能的影响

The effect of organic additive on the discharge characteristics of alkaline manganese dioxide electrode

用水热法以废旧锌锰电池为原料对制备锰锌铁氧体进行了研究。探索了制备过程的影响因素，如水热反应的pH值、水热温度及水热时间等。

Preparing manganese-zinc ferrite by hydrothermal method using spent Zn-Mn batteries has been studied to determine the influential factors on preparing process , including hydrothermal pH value , hydrothermal temperature and hydrothermal time , etc.

制备可充锌锰电池的关键技术之一是提高MnO2的可逆性。

Enhancing the invertibility of MnO 2 was one of key technologies of preparing chargeable Zn-MnO 2 battery .

CaCl2部分代替锌锰电池中的ZnCl2

Partial displacement of ZnCl_2 by CaCl_2 in the Zn / MnO_2 battery

废锌锰电池极性材料在一定条件下可以较好地溶解于硝酸中，其液固质量比及H2O2加入量对溶解过程有较大的影响。

Polar materials in waste Zn-Mn batteries can be dissolved into nitric acid in definite conditions . The mass ratio of liqud to solid and the dosage of H_2O_2 have significant effects on the dissolution .

锂离子电池、锌镍电池和锌空气电池的综合指标不如阀控式铅蓄电池和MH-Ni电池优良。

The comprehensive performances of lithium ion battery , nickel zinc battery and zinc-air battery were not good as that of VRLA battery and Ni-MH battery .

应用真空法研究了回收废锌锰电池中锌的规律，探讨了温度、压强、蒸馏时间对锌回收效果的影响，并研究了CaO的量对锌回收量的影响。

The possibility of removal zinc in waste acid manganese dioxide-zinc cells by a vacuum system was studied , and the effect of temperature , pressure and distilled time on the course of the elimination of zinc was investigated .

以硝酸溶解废旧碱性锌锰电池所得的溶液为原料，用溶胶-凝胶法制备出了具有尖晶石结构的Mn-Zn铁氧体。

Using spent alkaline Zn-Mn batteries as resource materials through dissolving with nitric acid , Mn-Zn ferrite powders with cubic spinel structure were directly synthesized by sol-gel method .

终止电压为1.0V时，锌空电池比能量可达427Wh/kg。

The specific energy of Zn-air battery reached 427 Wh / kg at cut off voltage of 1.0 V.

探讨了采用锌氧化银电池做UPS电源，在恒压充电电压与放电电压极其接近的情况下，能否保证足够的充电效率，能否提供足够的充电容量。

The results that whether the Zn-AgO battery can provide enough charge capacity and ensure enough charge efficiency were studied in the case that the charge voltage at constant voltage approached to the discharge voltage when Zn-AgO battery is used as UPS .

提出了利用废锌锰电池中的Fe、Mn和Zn制备高档锰锌软磁铁氧体材料的新技术，并对其工艺流程、技术特点和经济指标进行了详细的阐述。

A novel technology , which is on the preparation of Mn-Zn soft magnetic ferrite using Fe , Mn and Zn existing in waste battery as raw materials , was proposed . The technological process , character and economic-technology index of this technology were also discussed in detail .

实验还根据R6型号的碱性锌锰电池的结构设计出空气电极在外，锌粉居中的圆柱型电池锌空气电池。

According to structure of alkaline manganese cell , cylinder zinc-air battery is designed . Air electrode is outside , zinc anode whose structure as same as button zinc-air battery in the center .

研究了在碱性锌锰电池正极中添加钛化合物（钛酸锶、钛酸钡和锰钛化合物）对电池新电及在70℃贮存7d后的性能的影响。

The influence of titanium compounds ( SrTiO_3 , BaTiO_3 and manganese-titanium compound ) adding into the cathode of alkaline Zn / MnO_2 batteries on the electrical performance of fresh batteries and batteries stored at 70 ℃ for 7 d had been studied .

研究结果表明，ShawiniganBlackAB50炭黑的疏水性最好，所得空气扩散电极的含液率最低、电性能最好、使用寿命最长，所制AA型锌空气电池样品的放电容量可达4.6Ah。

Results show that the hydrophobicity of Shawinigan Black AB 50 carbon black is the best ; the air diffusion electrode have the lowest wet rate , the best electrical performance and the longest operating life ; the discharging capacity of the zinc-air battery specimen can reach 4.6 Ah .

碱性锌锰电池低汞锌粉进展

Progress in Low Mercury Zinc Power Used in Alkaline Dry Battery