Carbon Fiber Surface Mat
Carbon fiber surface mat is a non-woven carbon fiber mat composed of carbon fiber short cutting wire. The fabrication process involves a series of steps, including evacuation, dispersion, and wet forming. The material exhibits several notable characteristics, including uniform fiber distribution, a smooth surface, high air permeability, and strong absorption. Its application is extensive, encompassing numerous disciplines and composite materials. It has been demonstrated that this material has the capacity to showcase the superior performance of carbon fiber materials while concomitantly achieving a reduction in costs. This material represents a novel class of high-performance materials.
Product characteristics
Carbon fiber is a novel material with exceptional mechanical properties. It possesses a multitude of advantageous characteristics, including high strength, high modulus, high temperature resistance, corrosion resistance, electrical conductivity, thermal conductivity, and far infrared radiation.
Applications of Carbon Fiber
Carbon fiber has a wide range of applications in various fields, including civil engineering, construction, chemical industry, medical devices, industrial manufacturing, aerospace engineering, and the production of luxury vehicles.
1. Carbon fiber-reinforced plastic (CFRP)
CFRP modifies the inner and outer surfaces of various CFRP to obfuscate the texture of the gauze. Its flexibility enables it to adhere to the surface of complex-shaped molding products, thereby endowing CFRP with a smooth, flat surface.
2. FRP pipes, storage tanks, chemical containers, and filtration systems have demonstrated an exceptional level of resistance to both acid and alkali. CFM has been shown to exhibit remarkable durability against corrosion in pipes, tanks, and systems exposed to concentrated acids and alkalis. The storage tank is designed to withstand the corrosive effects of acids. The utilization of the aforementioned apparatus is effective in the filtration of corrosive gases or liquids.
Fuel cells and electronic components
CFM is an ideal material for the conduction of electricity, making it well-suited for the manufacturing of fuel cells and heating components.
3. The electronic instrument housing is composed of a large weight CFM made of prepreg material, a molded electronic equipment shell, thin walls, and a light body. This housing exhibits high strength and stiffness, as well as creep resistance. Additionally, it possesses comprehensive anti-electromagnetic wave interference and anti-RF interference functionality.
4. Electronic Field
The implementation of CFM in the vicinity of electronic devices can yield a multitude of effects, including electromagnetic or RF shielding, and electrostatic protection. Furthermore, CFM can be utilized in satellite reflectors.
