KELAIWEI company has invested 0.55 billion yuan to carry out deep cooperation with the research and development team led by Professor Sun Xiaogang of Nanchang University in China for a long time. And invested 0.45 billion yuan successively in Henan to build the first phase of whisker carbon nano-tube powder project and the second phase of whisker carbon nano-tube powder project, which made the production capacity of whisker carbon nano-tube powder of Henan KELAIWEI nano-Carbon Material Co., Ltd achieve qualitative improvement, up to 300 tons/year.
What is your method of making carbon nanotubes? Traditional manufacturing methods such as chemical manufacturing methods even have serious environmental pollution, and the purity of the manufactured products is not high. Our company adopts the patented technology developed by ourselves, "automatic and continuous production of whisker carbon nanotubes synthesis device" and "continuous production of whisker carbon nanotubes synthesis device", which are not only green and pollution-free, moreover, the efficiency is improved by more than a hundred times and the purity is very high. The purity of whisker carbon nanotubes provided by our company is as high as 99.99%.
KELAIWEI nano carbon materials company has been continuously making efforts in the field of high-end nano materials for more than 20 years. Our company has a complete range of products, huge production capacity, stable product performance and excellent quality. KELAIWEI company has served related enterprises in more than 60 overseas countries. At home, KELAIWEI company actively carries out product cooperation with customers in the industries such as Wanbao new energy, Wanxiang A123 and Jiewei power.
The 11th of the series of "reviewing the development history · encouraging young talents to strive for the first" of KELAIWEI company: achievements of cooperation and exchange Henan KELAIWEI Nano Carbon Material Co., Ltd attaches great importance to carrying out technical cooperation and exchange with industry experts and industry institutions at present, our company has cooperated with Nanchang University of China, Zhengzhou University of Light Industry, Shaanxi University of Science and Technology, Donghua University, china chemical and physical power industry association and so on have carried out close cooperation to compare the performance of graphene carbon nanotubes.
After continuous research and development by the technical team, KELAIWEI company has successfully developed carbon nanotube conductive coatings. This kind of coating has the characteristics of high conductivity and low cost, which can effectively reduce the weight of the car. The key point of this kind of coating research and development lies in the dispersion of carbon nanotubes. Carbon nanotubes can be effectively dispersed in the paint, which not only stabilizes the conductivity, but also solves the phenomenon of color inconsistency of the paint to a certain extent. At the same time, KELAIWEI is also working hard to realize the mass production of this product and technology.
Compared with the performance of graphene carbon nanotubes, a far infrared insole manufacturer in Guangdong has a small scale and does not have much research and development of new products. It has long relied on a single product of far infrared insole to survive, and has accumulated a large number of far infrared insole customers, in order to improve the competitiveness of our products, we began to improve the material performance of our products, and the far infrared paper of KELAIWEI company just met the current needs of customers, and finally it saved other raw materials.
Henan KELAIWEI Nano Carbon Material Co., Ltd found that whisker carbon nanotubes were used to make CNT transparent conductive film for their excellent conductivity. CNT transparent conductive film made of whisker carbon nanotubes has stable chemical performance and excellent conductive characteristics, moreover, it has both thermal conductivity and very good mechanical properties (the hardness of whisker carbon nanotubes is 100 times that of steel).
