The anti-corrosion properties of calcium hexaluminate (CA6) during the roasting of Li(NixCoyMnz)O2 (LNCM) materials have been investigated by means of specific experimental setups and test methods to verify its feasibility as an adiabatic insulation material for the roasting kiln of LNCM materials. Mullite insulating firebrick currently in industrial use was coated with CA6 (labelled M-CA6) and corrosion tests were carried out. The corrosion tests were carried out at different additions of corrosion sources, roasting temperatures, number of cycles of corrosion experiments. And the materials before and after corrosion characterized by the X-ray diffraction and scanning electron microscopy to determine the influence of different corrosion conditions on the interactions between M-CA6 and LNCM materials. In addition, The corrosion resistance of calcium CA6 and the feasibility of its application in practical industry was identified by characterising and comparing the high-temperature creep properties of the materials. The results of the laboratory scale experiments confirmed that M-CA6 was more resistant to LNCM than mullite insulating firebrick, and confirmed the feasibility and superiority of using CA6 as a lining insulation for LNCN kilns.