凯发

Our team relies on high-quality graphene raw materials to develop a series of high thermal conductivity graphene materials, which have been successfully applied in aerospace and other scenarios. The equivalent thermal conductivity of graphene thermal conductive cables reach over 1200 W/mK, leading competitors by 5% to 50%, which is 2 to 3 times that of copper and 5 to 6 times that of aluminum. The tensile strength exceeds 20 megapascals, and the bending flexibility exceeds that of foreign competitors by more than 50%. It has been used on 27 satellites and 2 ground-based telescopes to assist in the efficient and stable operation of satellite systems. In addition, by developing a unique vertical orientation arrangement technology, high-performance graphene thermal interface materials have been successfully developed, significantly increasing the equivalent thermal conductivity of traditional thermal interface materials to 35W/(mK), reducing thermal impedance to below 0.08Kcm2/W, and having over 90% compression rebound, which can be repeatedly uesd. Our technology is independently controllable with high cost-effectiveness and good reliability, which is of great significance in aerospace, military, artificial intelligence, robotics and other industrial chains.