《低温铝电解》针对氟化物体系(冰晶石体系)和氯化物体系下低温铝电解进行了阐述。对氟化物体系,主要阐述了在冰晶石体系下电解质的初晶温度、密度和电导率等研究成果。
...低温铝电解; 氧化; 熔盐冰晶石腐蚀[gap=918]Key words: inert metal anodes; Ni-Fe-Cu alloy; low temperature aluminum electrolysis; oxidation; molten-cryolite corrosion..
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指出氧化铝的溶解度小且溶解速度慢、电解质导电性差以及阴极结壳是实现低温铝电解所要解决的主要问题,提出了今后的研究方向。
The key problems for low temperature aluminum electrolysis to resolve are solubility and solution rate of Al_2O_3 in electrolyte, electrical conductivity and cathodic crust.
指出在钾冰晶石低温体系中应用金属阳极将成为今后铝电解很有希望的一种新工艺。
It could be inferred that metal anodes applied in potassium cryolite low-temperature-electrolyte system would be a promising technology for aluminum electrolysis in the future.
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