金属陶瓷惰性阳极导电性能的研究论文 关键词:惰性阳极; 金属陶瓷; 添加剂; 粒度级配; 导电性 [gap=1470]Keywords:inert anode; cermet; additive; grain graduation; electrical conductivity
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inert anode materials 惰性阳极材料
metal inert anode 金属惰性阳极
cermet inert anode 金属陶瓷惰性阳极
spinel based inert anode 尖晶石基惰性阳极
spinel-based inert anode 尖晶石基惰性阳极
sno 2-based inert anode sno基惰性阳极
inert anode in aluminium electrolysis 铝电解惰性阳极
Inert anode, which is environmentally friendly for aluminum electrolysis, can greatly reduce the production cost, cut down the energy consumption, increase the production capacity.
惰性阳极技术不仅环境友好且能节能增产,降低电解铝生产成本。
参考来源 - 泵氧电极In this paper,the research objectives through the addition of nano-NiO,fund NiFe_2O_4 is to improve the mechanical properties of ceramics,and to solve the inert anode and large machining and other projects problems。
本论文的研究目标通过纳米NiO的添加,改善NiFe_2O_4基金属陶瓷的力学性能,从而有利于解决惰性阳极大型化和机械加工等工程技术问题。
参考来源 - NiFe·2,447,543篇论文数据,部分数据来源于NoteExpress
Research of Cermet Inert Anode Materials for Aluminum Electrolysis;
着重介绍了国内对金属陶瓷惰性阳极材料的研究现状。
The current researches of metal inert anode in China are presented primarily.
着重介绍了国内对金属陶瓷惰性阳极材料的研究现状。
Inert anode is the research focus in aluminum industry because there are many advantages using it.
惰性阳极由于存在许多的优点,一直是铝工业界关注的热点。
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