1)molten salt electrolysis熔盐电解
1.New process for preparation of Al-Sr alloys by molten salt electrolysis and its feeding study on period;熔盐电解生产Al-Sr合金的新工艺及其加料周期
2.Preparation of CaB_6 powders by molten salt electrolysis and analysis of electrode process;熔盐电解制备CaB_6晶体粉末及电极过程分析
3.Analysis of external conditions and experiments for synthesis of CaB_6 by molten salt electrolysis;熔盐电解制备CaB_6的外部条件分析与实验验证
英文短句/例句
1.clear fused-quartz cell透明熔融石英电解槽(熔盐电解)
2.Pre-electrolysis Purification of Fluoride Melts for Preparation of Solar Grade Silicon by Three-Layer Electrorefining三层液熔盐电解制备太阳级硅用氟化物电解质熔体预电解净化
3.Study on Preparation Titanium by Electrolysis Reduction of TiO_2 in Salt;熔盐电解TiO_2制备金属钛的研究
4.Slot-type Design for 10KA Rare Earth Molten Salt Electrolysis Cell;10KA底部阴极稀土熔盐电解槽槽型设计
5.Preparation of Mg-Li Mg-Li-Zr Zn-Zr Alloys by Electrolysis in Molten Salt;熔盐电解制取Mg-Li Mg-Li-Zr Zn-Zr合金
6.Preparation of Mg-Al-Sr-Ca Alloy by a New Technology of Molten Salt Electrolysis熔盐电解法制备镁-铝-锶-钙合金新工艺
7.Preparation of LaNi_5 Powder by Electrolytic Deoxidation in Molten Salt from La_2O_3-NiO Mixture熔盐电解La_2O_3-NiO制备LaNi_5粉末
8.Numerical Simulation of Multiphase Flow in Rare Earth Electrolytic Cell稀土熔盐电解槽内多相流动数值模拟
9.Preparation of solid state Fe-Ti alloy compound by FFC in molten salts at 700℃700℃熔盐电解制备固态钛铁合金化合物
10.Study on Electrolysis Process for Preparation of Solar Grade Silicon by Three-Layer Electrorefining三层液熔盐电解制备太阳级硅的电解工艺研究
11.Preparation of Carbon Nanotubes by Electrolysis in Molten Salts and Its Electrocatalytic Properties;纳米碳管的熔盐电解法制备及其电催化特性
12.Capacitance characteristics of activated carbon in room temperature molten salt electrolyte活性炭在室温熔盐电解质中的电容特性
13.Back electromotive on preparation of Al-Ca alloys by molten salt electrolysis熔盐电解法制备铝钙合金中的反电动势
14.Thermal and electrochemical performance of novel binary molten salt electrolyte based on LiTFSI/NaTf新型二元熔盐电解质LiTFSI/NaTf的热学和电化学性能
15.Experiments of Molten Electrolysis of TiO_2 to Titanium and Study on the Mechanism;二氧化钛熔盐电解制取钛的实验及机理研究
16.Study on Electrolysis Reduction of Titanium Dioxide to Titanium in Molten Salt and the Reduction Mechanism;熔盐电解TiO_2制备钛及其还原机理的研究
17.Some Studies of Electrolysis of Solid Compounds in Molten Salts;熔盐电解固态化合物研究中的若干探索
18.Reaction Processes and Preparation of TiZr Alloy by Electrolysis in Molten Salt熔盐电解制备钛锆合金及其反应过程研究
相关短句/例句
fused salt electrolysis熔盐电解
1.This paper reviews the conventional fused salt electrolysis process for production of refractory metals and analyzes its shortages: conventional electrolysis has strict demands for electrolyte, which leads failure in production of refractory metals with conventional electrolysis.介绍了传统的熔盐电解法用于难熔金属制备的应用现状,分析了其存在的弊病:主要是传统熔盐电解法对电解质要求严格,难以找到合适的熔盐。
3)salt melting-elec-trolysis盐熔电解
4)molten salt electrolyte熔盐电解质
1.Binary molten salt electrolytes based on LiClO_4;以高氯酸锂为基的二元低温熔盐电解质
2.Thermal and electrochemical performance of novel binary molten salt electrolyte based on LiTFSI/NaTf新型二元熔盐电解质LiTFSI/NaTf的热学和电化学性能
5)scrapped molten salt电解废熔盐
6)calcium molten salt electrolysis钙熔盐电解
1.On the analysis of the oxidation mechanism of graphite anode in calcium molten salt electrolysis process, the resist-oxidation of the graphite anode is investigated.在对钙熔盐电解过程中石墨阳极氧化机制分析的基础上,进行石墨阳极抗氧化研究。
延伸阅读
熔盐电解 利用电能加热并转换为化学能,将某些金属的盐类熔融并作为电解质进行电解,以提取和提纯金属的冶金过程。熔盐电解在19世纪初已开始应用,随着熔盐电化学的迅速发展,至19世纪末期就以工业规模生产铝、镁等轻金属。以后,又用于稀有金属的生产。 熔盐电解质 熔盐是熔融状态的盐类,其中主要是卤化物。熔盐是离子熔体,有较高的电导率;在比熔点稍高的温度时,晶体结构虽然由于热运动而松散、溃乱,但在一定的距离内仍保持一定的有序性,称为近程序结构。 在电解中使用的熔盐电解质应该具有较低的熔点,适当的粘度、密度、表面张力,足够高的电导率,以及相当低的挥发性和不溶解被电解出来的金属熔体等性质。为了达到这些要求,常常使用由几种盐类组成的混合物。它们常具有比纯组分更低的熔点,但也有不少例外。所以,必须通过实验来选择适当的混合盐组成。通常,电解镁用NaCl-KCl-MgCl2混合熔盐;电解铝用Na3AlF6-Al2O3混合熔盐。电解钽则用K2TaF7-Ta2O5混合熔盐;电解铍用BeF2·NaF-BaF2或NaCl-BeCl2混合熔盐。 影响熔盐电解的因素 和水溶液电解质一样,当熔融电解质与金属接触时,两者之间将产生一定的电势差,即电极电势。在同一熔盐中插入两个电极,并利用外加电压通过直流电,当电压达到一定的数值时,熔盐中的某些组分将分解,平衡状态下化合物开始分解的电压称为分解电压(表1)。常见金属的电化当量见表2。熔盐的性质和它的组成、金属离子和阴离子的性质都会影响电化顺序中各金属的相对位置。 在大多数情况下,熔盐电解的电流效率低于水溶液电解。影响电流效率的因素有:温度、电流密度、极间距离和电解质的性质。其中电解质对金属的溶解是降低电流效率的主要因素之一。某些金属可与其高价化合物作用,生成低价化合物,例如: