KELAIWEI takes quality as the first priority and quality as the fundamental of the enterprise. The company's policy is full participation, quality as the first priority, scientific and technological innovation, and always striving for the first class. It always puts quality control in the first place. At the beginning of the company's establishment, the company actively promotes the system construction of IATF16949, and implements the quality control to all levels of the company's management. In terms of quality control, the company strictly controls raw materials, process inspection and finished product inspection, it is our endeavor and pursuit to make our products to the extreme, carbon nanometer black body.
Henan KELAIWEI Nano Carbon Material Co., Ltd. was founded in June, 2018. It is mainly engaged in the research and development and manufacture of whisker carbon nanotubes, and has equipment with annual output of 30 tons of whisker carbon nano tube powder, we have invested 0.45 billion yuan to build the project of whisker carbon nano-tube powder with annual production capacity of 300 tons. This project is carried out in two phases, and the production capacity of each phase is designed to be 150 tons/year, KELAIWEI is committed to promoting the development of the domestic whisker carbon nanotubes industry.
Carbon nano-black body, the technical team of Henan KELAIWEI nano-Carbon Material Co., Ltd. is one of the enterprises specialized in the technical research and development in the field of high-end nano-materials and manufacturing of industrial mass production equipment in the early stage in China. Since its development, the technical team of KELAIWEI company, which has gone through more than 20 years, has successively applied for 9 national patents, and 2 monographs have been published. Our products have broken some technical monopolies of foreign counterparts, and went abroad and sold it abroad.
With the resumption of production and resumption of work in all walks of life in our country after March, if the 2020 international heat conduction and heat dissipation materials and equipment exhibition held in Shenzhen city, Guangdong province is held as scheduled, our company will send product technicians to actively participate in it, we will launch new products of our company at that time. We sincerely look forward to meeting, talking, meeting and intersecting with you in the KELAIWEI exhibition area of Shenzhen Convention and Exhibition Center on August 27th, 2020.
Silicon-based devices are large-scale commercial electronic devices, but the pursuit of science is endless, and the pursuit of manufacturing materials with stronger performance and smaller size is always pursued. However, carbon nanotubes have super high conductivity, whose strength is 100 times higher than that of steel, and their thermal conductivity is very strong, which is 10% better than that of carbon black, therefore, carbon nanotubes will become important materials to replace silicon-based devices.
What is special about the catalytic thermal decomposition of Carbon Nanotubes? Since carbon nanotube materials were discovered in the laboratory by Japanese physicists in 1991, world physicists have exhausted what they have learned and synthesized carbon nanotubes in various ways. Catalytic thermal decomposition method adopts carbon organic matter to react through high temperature environment of 400-600 degrees and high temperature environment of 700-1000 degrees. Carbon materials are mixed with solvent water, catalyst and materials, and then filtered and dried after stirring and dipping. After catalytic reaction, after washing and ultrasonic shock, carbon nanotubes are finally produced.
In terms of the use of heat dissipation materials, carbon nanotubes, like Popeye's spinach, will improve the heat dissipation properties to the north of the city. Carbon nanotubes will help heat-dissipating coatings quickly form a heat-dissipating network, disperse the concentrated heat and distribute it through each node of carbon nanotubes. At the same time, the heat dissipation network formed by carbon nanotubes will further improve the toughness of the coating, and a thin layer of coating can quickly form a smooth and even coating coverage.
