简要介绍了熔盐电脱氧工艺制备金属或合金的研究情况.重点评述了掺杂、成形压力和烧结温度对阴极孔隙率以及掺杂、烧结温度和烧结气氛对阴极半导体化的影响,分析了阴极孔隙率和半导体化与电解效率的关系:增大阴极孔隙率,促进O<'2->扩散和迁移,增加阴极有效反应面积.有利于电解脱氧;增加阴极氧空位有利于增强其导电性,从而提高电解效率.展望了今后的研究方向,提出了阴极孔隙率和半导体化之间合理平衡、影响因素的优化和探讨等以提高电脱氧效率.
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