The application of aerogel felts based on melamine sponge matrices represents an innovative solution within the field of new energy batteries. With the advancement of new energy vehicles—for which batteries serve as one of the core components—increasingly stringent demands are being placed on both battery performance and safety.
The application of aerogel felts based on melamine sponge matrices represents an innovative solution within the field of new energy batteries. With the advancement of new energy vehicles—for which batteries serve as one of the core components—increasingly stringent demands are being placed on both battery performance and safety. As a modified derivative of melamine sponge, aerogel felt demonstrates immense potential for application in the new energy battery sector.
First, aerogel felt possesses extremely low thermal conductivity and excellent thermal insulation properties. This means it can serve as a thermal insulation layer for battery packs, effectively preventing the propagation of heat within the pack, lowering battery temperatures in high-temperature environments, and enhancing the safety and stability of the batteries.
Furthermore, aerogel felt possesses excellent adsorption properties and a large surface area. This enables it to adsorb and immobilize liquids generated within the battery—such as electrolytes—thereby preventing their flow and leakage throughout the battery pack, which ultimately enhances both the service life and safety of the battery.
