1)Electrolytic manganese dioxide电解二氧化锰
1.which were tested in 409 / L H2SO4+80g / L MnSO4 electrolytic manganese dioxide (EMD) cell solutinns at 95℃, have been studied.3Cu4种合金在95℃,40g/LH2SO4+80g/LNnSO4电解二氧化锰溶液中作阳极时的抗钝化性能、研究表明:以上4种合金都具有比TA2优异的抗钝化性能,TiNiFE的最为优异,在电流密度低于80A/m2时。
2.The contents of arsenic and stibium in mercury-free alkaline Zn/MnO_2 battery used electrolytic manganese dioxide were determined by hydride generation atomic fluorescence spectrometry.用氢化物发生 原子荧光光谱法测定了无汞碱锰电池用电解二氧化锰中砷和锑,对仪器条件、试剂用量等进行了研究。
3.According to the chemical compositions and characteristics of the ore with low phosphorous and high iron and the ore with high phosphorous and low iron,we studied the basic technological condition of making manganese sulfate for manufacturing electrolytic manganese dioxide(EMD)used for battery by immersing .为了有效利用现存的锰矿资源,以两种铁、磷含量差别较大的菱锰矿为代表,根据低磷高铁和高磷低铁两种贫锰矿石化学成分的特征,在实验室规模上研究了两种菱锰矿单独以及混合进行酸浸取制备硫酸锰以便生产电池用电解二氧化锰的基本工艺条件。
英文短句/例句
1.High performance EMD for mercury-free alkline Zn/MnO_2 battery无汞碱锰电池专用电解二氧化锰的研制
2.Optimize the Leaching Process of Producing Electrolytic Manganese Dioxide from Rhodochrosite电解二氧化锰生产中贫锰矿浸取工艺的优化
3.Study on Process for Preparation of Electrolytic Manganese Dioxide(EMD) from Desilver Waste Liquid;提银含锰废液生产电解二氧化锰(EMD)的工艺研究
4.China Domestic Production of Electrolyzed MnO_2 Progress, Status and Prospect;电解二氧化锰国内外产销现状和发展
5.The experimental results indicated that activated MnO 2 could partially replace EMD in Zn/MnO 2 cells.将活性二氧化锰应用于锌锰干电池 ,实验结果表明活性锰可部分替代电解二氧化锰
6.EMD is one of the key materials of Hg free alkaline Zn/MnO2 battery.电解二氧化锰是实现碱性锌锰电池无汞化的关键材料之一。
7.Application and Development of Anode Materials Used in EMD Production电解二氧化锰用阳极材料的发展与应用
8.The past and state of china,s EMD industry were analyzed.分析了我国电解二氧化锰工业的过去和现状 ;
9.2006 EMD Market Review and the Prospect in 2007;2006年电解二氧化锰市场回顾和2007年形势与展望
10.High performance EMD are the key materials for mercury-free alkaline Zn-MnO2 batteries;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。
11.But that of an electrolytic manganese dioxide(EMD)decreased from 72. 5% to 25. 3% during the first ten cycles.电解二氧化锰在前十次循环中放电容量从72.5%逐渐下降至25.3%。
12.Electrodeposition of Manganese Metal and Simultaneous Production of EMD by Ion-Exchange Membrane Electrolysis;离子膜电解同时制备金属锰与二氧化锰
13.Production of EMM off Ferro with the Technology of Oxygen or MnO_2用氧气部分或全部替代二氧化锰除铁生产电解金属锰技术的应用
14.Study on the Preparation of Manganese Dioxide Anode Material and Additives in the Electrolyte for Mercury-free Rechargeable Alkaline Manganese Dioxide Battery;无汞可充碱锰电池正极材料二氧化锰的制备及电解液添加剂研究
15.Preparation of CMD for Alkaline Zinc Mangenese Battery碱性锌锰电池用化学二氧化锰的研制
16.The new technology on the simultaneous electrolysis of zinc and manganese dioxide has been expertized successfully锌—二氧化锰同时电解新工艺通过技术鉴定
17.Studies on Zn-MnO_2 Simultaneous Electrolysis in Sulphuric Acid System;硫酸体系中锌—二氧化锰同时电解的研究
18.Study on Electrolyzing Manganese Metal and Dioxide in the Same Cell and the Transfer Mechanism of the Electrolytes;同槽电解锰和二氧化锰工艺条件及传质机理的研究
相关短句/例句
EMD电解二氧化锰
1.2006 EMD Market Review and the Prospect in 2007;2006年电解二氧化锰市场回顾和2007年形势与展望
2.The Influence of the Different Temperature on the Discharge Performance of EMD;中和温度对电解二氧化锰产品放电性能的影响
3.High performance EMD for mercury-free alkline Zn/MnO_2 battery;无汞碱锰电池专用电解二氧化锰的研制
3)electrolytic manganese dioxide(EMD)电解二氧化锰(EMD)
4)basic-Mn electrolytic manganese dioxide碱锰型电解二氧化锰
1.According to the monitoring data, it briefly introduces the environmental influence and environmental measurement of basic-Mn electrolytic manganese dioxide process.主要以某公司9000t/a碱锰型电解二氧化锰技改项目环境影响评价为例,结合验收监测数据,简要介绍碱锰型电解二氧化锰生产的环境影响与环保措施。
5)doped titanium electrolytic manganese dioxide掺钛电解二氧化锰
6)Li-MnO2 battery锂-二氧化锰电池
1.The working-principle of Li-MnO2 battery was described.阐述了锂-二氧化锰电池的工作原理,剖析了在滥用条件下圆柱形锂-二氧化锰电池产生安全性问题的原因,总结出改善圆柱形锂-二氧化锰电池安全性能的几种措施,叙述了圆柱形锂-二氧化锰电池进行安全性试验的几种方法。
2.By explaining working-principle of Li-MnO2 battery and analyzing safety problems resulting from abuse of cylindrical Li-MnO2 battery, methods to improve safety performance of cylindrical Li-MnO2 battery are summarized in this article.阐述了锂-二氧化锰电池的工作原理,剖析在滥用条件下圆柱形锂-二氧化锰电池产生的安全性问题的原因,总结出改善圆柱形锂一二氧化锰电池安全性能的几种措施,叙述了圆柱形锂-二氧化锰电池进行安全性试验的几种方法。
延伸阅读
铝电解厂16kV·A电解槽系列及电解多功能机组铝电解厂16kV·A电解槽系列及电解多功能机组 铝电解厂16kV·A电解槽系列及电解多功能机组
