Using high-temperature-resistant ceramic fiber composite technology, it is prepared through processes such as impregnation, gelation, aging modification, and supercritical drying. It features high-temperature resistance and low thermal conductivity, and is used for thermal insulation, flame retardancy, and cushioning in high-end new energy passenger vehicle battery cells and modules, providing thermal runaway protection.
Using high-temperature-resistant ceramic fiber composite technology, it is prepared through processes such as impregnation, gelation, aging modification, and supercritical drying. It features high-temperature resistance and low thermal conductivity, and is used for thermal insulation, flame retardancy, and cushioning in high-end new energy passenger vehicle battery cells and modules, providing thermal runaway protection.
