Abstract
In this study, a post-mortem analysis of saggars after service was performed to analyze their internal structure and damage mechanisms. To improve the corrosion resistance of mullite-cordierite saggar, calcium alumino-titanate (CAT) was introduced as the third component. Optimized crucible samples with various CAT contents were prepared and subjected to static corrosion resistance tests. Experimental results demonstrated that CAT could reinforce the consolidation of the matrix in the sintering process and effectively enhance the corrosion resistance of the mullite-cordierite composite material. Thus, the mullite-cordierite-CAT composite material is more suitable for the sintering of Li-ion battery cathode materials.
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