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thermal runaway protective materials
Thermal runaway protective materials-Ceramic composite material
Recommended materials: : SSG-C10
Characteristics: soft and elastic. This series is composed of "revolutionary" organic polymer materials - ceramic fire-resistant and heat-resistant silicone rubber and high-temperature resistant glass fiber as the base material. Upon exposure to temperatures exceeding 450 ℃, it undergoes ceramicization, culminating in the creation of a self-supporting ceramic structure.
Application:
Utilizing the specific needs of battery modules, Xiangyuan introduces SSG-C10 ceramic composite material. Capable of withstanding flame impact of up to 1300℃ for 30 min., it swiftly transforms into ceramics. This innovative solution significantly enhances safety measure, particularly in scenarios involving thermal runaway within the battery module.
With the rapid growth of global energy demand, vigorously developing renewable energy is the future trend. Modern renewable energy technology is developing very rapidly. The cost of renewable energy decreases with the mature application of technology. Non-hydroelectric renewable energy such as wind energy, solar energy, geothermal energy, tidal energy and ocean wave energy emerge in endlessly, surpassing the global average annual growth rate of any other energy. How to efficiently store energy is the key to the development of these fields. The high-end foaming materials developed by Xiangyuan New Material can meet the requirements of new energy storage batteries for sealing and sealing materials in the future. These unique materials can effectively play the role of dust prevention, shock prevention, waterproof, flame retardant, aging resistance, and other pollutants during the use of products, reduce maintenance costs and improve energy utilization.