材料科学
热冲击
钙长石
莫来石
腐蚀
烧结
热稳定性
堇青石
多孔性
冶金
矿物学
化学工程
复合材料
陶瓷
工程类
化学
作者
Duoke Cao,Shujing Li,Yuanbing Li,Junfeng Tan,Changdong Wei
摘要
Abstract Mullite–cordierite saggar materials commonly used in the industry are easily corroded by LiNi x Co y Mn 1− x – y O 2 (LNCM) materials during the synthesis of Li‐ion batteries. To extend their service life, the influence of varying the proportion of calcium hexaluminate (CA 6 ) ranging from 0 to 12 wt% on the sintering behavior of the mullite–cordierite system was investigated. These samples were then tested to evaluate their physical characteristics, resistance to corrosion by LNCM materials, and thermal shock stability. The experimental results show that the open‐pore structure formed by the interstacking grains of CA 6 effectively impedes further penetration of the corrosion phase. Moreover, the addition of CA 6 resulted in the in situ formation of anorthite within the material, enhancing its sintering and bonding properties and significantly improving the material's corrosion resistance. Consequently, incorporating CA 6 effectively enhances the saggar's thermal shock stability and corrosion resistance.
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