KELAIWEI carbon nanomaterials company focuses on mastering core technology. The competition of high-end nanomaterials is the competition of cutting-edge technologies. Professor Sun Xiaogang of Nanchang University has led his team to study high-end nanomaterials for more than 20 years, applied for more than 100 technical patents, published more than 40 top Papers and Monographs, thus laying the technical foundation of KELAIWEI company. KELAIWEI company can provide you with high-end nanomaterials products and technical support.
What are the application scenarios of carbon nanofibers? Nanometer carbon fiber acts on the field of composite materials and can be used as strong magnetic shielding additive, conductive additive, etc. Nanometer carbon fiber can be used as mechanical reinforcing agent, and can be used for Electrostatic spraying to solve the problem of classical dispersion and make the painting of objects more smooth and tidy. Nanometer carbon fiber has broad applications in the fields of electronic devices, automobile parts manufacturing, rubber products manufacturing, etc.
KELAIWEI company focuses on the research and development and production of high-end nanomaterials products, processes and production line equipment. KELAIWEI nano carbon material company owns the technology patent invention and advanced production research and development management system which is the mainstay in the industry, and its products have been exported to more than 60 countries in the world. Our company has great technical advantages in the high-end nanomaterials industry. There are production bases and research and development centers in Henan and Jiangxi.
Carbon-based nanomaterials are an important business of KELAIWEI company. KELAIWEI Nano Carbon Material Co., Ltd. Established the production base of Dengfeng city in Henan province and the production research and development base of KELAIWEI in Jiangxi province to provide high quality whisker carbon nanotube powder for major customers at home and abroad, A series of high-end and high-quality carbon-based nanomaterials, such as whisker carbon nanotube conductive paste of various specifications. The research on carbon-based nanomaterials technology KELAIWEI company will continuously add investment.
Carboxyl carbon nanotubes are ultrasonic dispersed, and the use of carbon nanotubes as the carrier of catalytic materials is to develop new high-efficiency electrodes and electrocatalyst carriers for fuel cells. At present, platinum catalysts are used in fuel cells, so large-scale production may be considered if the cost is too high. This may be possible to reduce the required platinum content by using carbon nanotube membranes with unique properties. Since the membrane is thinner and lighter than the current component, the fuel cell can be smaller but still provide the same amount of electricity.
A large radiator company in Northeast China aimed at domestic and foreign domestic radiator market, and launched a medium and high-end domestic radiator. Its products also use far infrared paper. The quality of the products provided by several suppliers of far infrared paper that once cooperated with was uneven, it also leads to the great difference in the performance of different batches of its products. Finally, the cooperation with other manufacturers has been interrupted after the application of the far infrared paper of KELAIWEI company, because no matter the price, after-sales service, or the performance is due to other manufacturers.
The gas diffusion layer of the fuel cell made of Ba-based paper has the characteristics of excellent chemical properties, mechanical properties, conductive and thermal conductivity, etc. Disordered carbon nanotubes are made into BA-based paper, the BA-based paper has some excellent functions of carbon nanotubes, such as strong chemical stability, strong toughness, non-barrier ion transfer, with super conductive performance, etc. The BA-based paper produced by KELAIWEI company has been monitored by strict quality control center, and has excellent performance. Welcome to order. Carboxyl carbon nanotubes are dispersed by ultrasonic.
