通过差热分析确定了熔盐电解质的熔点及其在电解过程中的变化。
The melting point and it is change of the electrolyte in electrolysis were defined.
介绍了采用单片微机控制技术,实现熔盐电解炉炉温自动控制的方法。
The method of automatic controlling furnace temperature of RE electrolytic furnace with piece microcomputer control technology is presented.
金属M例如可通过熔盐电解从其氯中回收,并循环到该工艺的第一步。
Metal m can be retrieved from its chlorine, e. g. by molten salt electrolysis, and recycled to the first step of the process.
研究了利用熔盐电解法从金属氧化物中直接电解制备钛镍合金的可行性。
The practicability on Ti-Ni alloy manufactured by direct electrochemical reduction of TiO2 and NiO oxides was investigated.
通过SEM和电子探针分析,提出了钙熔盐电解过程石墨阳极的破损机理。
With the analysis of SEM and electron probe, the destroying mechanism is put forward.
一步法主要包括电弧放电法、熔盐电解法、模板法和热解金属有机物法等四种。
One-step methods consist of arc-discharge method, electrolytic formation techniques, template-assisted method and pyrolysis of organometallic precursors, etc.
用熔盐电解法生长立方钙钛矿结构的钠钨青铜单晶,该单晶体具有金属导电性。
Single crystals of sodium tungsten bronzes with cubic perovskite structure were grown by fused sale electrolysis. The crystals have a metallic conducting behavior.
分析了钙熔盐电解过程石墨阳极消耗的两个因素 ,即主要有氧化消耗和物理破损 。
The consumption of the graphite anode in the calcium molten salt electrolysis process is analyzed, which includes oxidation consumption and physics damage.
前者包括反应自由焓、平衡常数、最大产量、气相分压以及熔盐电解理论分解电压的计算;
The former includes the calculation of reaction free enthalpy, equilibrium constants, maximum output, gaseous phase partial pressure and theoretical decomposition voltage of molten salt electrolysis.
该方法包括:以铜硫矿为阴极、熔盐为电解质,采用熔盐电解法对铜硫矿进行脱硫的步骤。
The method comprises steps that a fused salt electrolysis process is used for removing the sulfur in the copper sulfide core by using the copper sulfide ore as cathode and fused salt as electrolyte.
熔盐电解质的导电性对熔盐电解的能耗有极大的影响,直接关系到熔盐电解生产的能耗和成本。
Electrical conductivity of molten salts electrolyte has tremendous influence on the electrolysis in molten salts. It directly affects the energy consumption and the cost during the production process.
稀土金属及其合金的应用日益广泛,熔盐电解法是目前制备稀土金属及其合金的重要方法之一。
The applications of rare earth metals and its alloys are more and more important. Molten salt electrolysis is one of the important methods to prepare rare earth metals and its alloys.
采用液态铝阴极熔盐电解法来制取作变质剂用的铝锶合金,具有工艺简单、成本低、产品纯度高的优点。
Molten-salt electrolytic preparation of deteriorative agent AlSr alloy by using liquid A1 as cathode is characterized by such advantages as simple process, low cost and high product purity.
根据稀土钕熔盐电解中钼电极所存在的缺点,采用钨代钼作电极,并对钨的生产制造过程和连接方式进行了探讨。
W electrode is used instead of the imperfect mo electrode in the molten-salt electrolysis of nd. The fabrication steps and connection method of W electrode is investigated.
它由两个熔融金属,如电极作用,和一个熔盐作为电解质行事。
It is composed of two molten metals, acting as electrodes, and one molten salt, acting as an electrolyte.
对作为析氧阳极的氧化锆固体电解质在带电和不带电条件下,于冰晶石熔盐中的腐蚀行为进行定性研究。
The corrosion behavior of solid electrolyte used for the evolution of oxygen in molten cryolite salt was studied.
主要研究了初晶温度、过热度、电解质组成,以及电解质融化之后的熔盐深度对铝溶解度的影响。
Influence factors, such as liquidus temperature, superheat degree, electrolyte components, and the depth of molten salt were focused.
虽然这项技术已发明数十年,但现存的熔盐电池需要电解质在液态下维持在300摄氏度以上。
The technology has been around for decades, but existing molten-salt batteries require keeping the electrolyte in a liquid state at a temperature higher than 300 c.
本发明使用的电解质为氯化钙熔盐体系,可 在其中掺入氯化钠、氯化锂或它们的混合物。
The electrolyte used in the invention is a calcium chloride fused salt system, into which sodium chloride, lithium chloride or admixture of the sodium chloride and the lithium chloride can be admixed.
介绍了在氟化物熔盐体系中通过电解制备镁钕中间合金的新方法。
The general situation of molten salt systems since 21 century are presented.
介绍了在氟化物熔盐体系中通过电解制备镁钕中间合金的新方法。
The general situation of molten salt systems since 21 century are presented.
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