Carbon/carbon composites, reinforced with high-strength carbon fibers, have excellent properties such as light weight, high mechanical strength and high elasticity. Due to their unique properties, our carbon/carbon composites are used in a wide range of applications, such as electronics, environment and energy, general industrial furnaces, and automobiles and other transportation fields.
Carbon/carbon composites have higher mechanical strength, higher elasticity, and excellent resistance to cracking and spalling. Carbon/carbon composites can be used with confidence because cracks do not spread rapidly in them. They also have high thermal conductivity and heat resistance, and in inert gases, they can even be used at ultra-high temperatures of 2000°C or higher. Compared with metal materials, carbon/carbon composites have a lower density, so lightweight designs can be achieved and are easier to handle.
Carbon/carbon composites, reinforced with high-strength carbon fibers, have excellent properties such as light weight, high mechanical strength and high elasticity. Due to their unique properties, our carbon/carbon composites are used in a wide range of applications, such as electronics, environment and energy, general industrial furnaces, and automobiles and other transportation fields.
Carbon/carbon composites have higher mechanical strength, higher elasticity, and excellent resistance to cracking and spalling. Carbon/carbon composites can be used with confidence because cracks do not spread rapidly in them. They also have high thermal conductivity and heat resistance, and in inert gases, they can even be used at ultra-high temperatures of 2000°C or higher. Compared with metal materials, carbon/carbon composites have a lower density, so lightweight designs can be achieved and are easier to handle.