The price of the vibrating screen of the battery material added with carbon nanotubes, the carbon nanotube material independently developed by KELAIWEI company has obtained many national authorized patents, completely reaching the international advanced level. The carbon nanotube materials with high performance and strong stability developed by KELAIWEI company broke the monopoly of relevant foreign technologies and actively promoted the development of high-end carbon materials in the motherland. The management layer of Henan KELAIWEI Nano Carbon Material Co., Ltd has decided to continuously invest in the research and development of carbon nanotube materials for equipment.
A brief introduction to the fabrication of carbon nanotubes by arc method. Carbon nanotubes were first discovered by Japanese physicists, and the arc method was also first invented by Japanese scientists. The arc method is to rearrange the structure of carbon atoms in the high temperature environment produced by the arc caused by the graphite electrode of yin and yang poles in the reaction chamber containing the pressure inert gas, so as to obtain a single-wall carbon nano-tube. Since then, the arc method has been continuously improved and perfected day by day.
The technical team of Henan KELAIWEI Nano Carbon Material Co., Ltd. is one of the early domestic enterprises specializing in the technical research and development of high-end nano materials and manufacturing of industrial mass production equipment. 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.
The price of the vibrating screen of the battery material added with carbon nanotubes, the R & D center of KELAIWEI company benefited from the research and development achievements of Professor Sun of Nanchang University in China for decades, and the technology center gained new strength again. KELAIWEI company has obtained two technical whisker carbon nanotube technology patents, nine national authorized technology patents, and the international PCT patent has been successfully declared. In addition, the planning department has learned that new research results will be published in the form of papers in the near future. KELAIWEI company is very grateful to experts and industry associations at home and abroad for their support and help to our company.
Carbon nanotubes are important industrial additives due to their excellent conductivity. They can be used as antistatic plastics when added to composite materials. Because of their linear structure, they have the characteristic of easy dispersion, high electrical conductivity can be achieved with low addition amount added to the composite material. At present, the surface resistance value of the prepared whisker carbon nanotubes can reach 101-109 with the addition amount of 1-5% wt, at present, KELAIWEI is cooperating with Z Research Institute to develop antistatic plastics.
Jiangxi xxx Carbide Manufacturing Co., Ltd. has a history of producing high-strength and high-toughness carbide for nearly ten years. Recently, we are looking for cooperation with our company on carbon nanotube materials. Carbon nanotubes have extremely strong toughness and strength (its strength can be 100 times that of steel), and also have high corrosion resistance, acid and alkali resistance and water resistance. Using the hard alloy of carbon nanotubes, in terms of hardness, toughness, anti-wear, anti-strike and anti-corrosion have more outstanding performance.
Henan KELAIWEI nano-Carbon Material Co., Ltd. has formed a new material-carbon nano-tube paper, also known as Ba-based paper, by using a series of disordered carbon nano-tube materials with a certain length. Carbon nanotube paper has a larger specific surface area than carbon fiber paper. The strength performance of Ba-based paper is similar to that of thermal conductive graphite sheet. Ba-based paper has ultra-high thermal conductivity due to the use of carbon nanotubes.
