The R & D team of KELAIWEI is an experienced team. The R & D leaders in the team are superior in terms of the knowledge in the industry, the intake of new knowledge, and the control of the development trend of the industry, with the brainstorming of other team members, the R & D strength of the whole team has been continuously improved. At the same time, in order to further ensure the autonomy and controllability of products, the company has also strengthened the development of the subsequent process, further improved the production process of products, and ensured the controllability of product quality.
The research and development team of Henan KELAIWEI nano-Carbon Material Co., Ltd. has been striving for the high-end nano-material industry of the motherland for more than 20 years, and finally relies on technology self-research, patent invention, high-end manufacturing technology, professional services expand overseas nanomaterials market in more than 60 countries and regions. KELAIWEI will build the project of "whisker carbon nano-tube powder" with an annual output of 300 tons, which will surely supply customers with high-end products and advanced technical services stably.
Henan KELAIWEI Nano Carbon Material Co., Ltd. has established cooperation with Zhengzhou University of Light Industry, Donghua University, Nanchang University and other universities, among which the technology research and development team led by Professor Sun Xiaogang of Nanchang University has been engaged in research for more than 20 years, he co-founded Henan KELAIWEI Nano Carbon Material Co., Ltd with our company. Therefore, our company has profound technical deposits, and the research and development of Far Infrared paper (FIRPs) products, whisker-like carbon nanotubes and other materials sell well at home and abroad.
Since its establishment, KELAIWEI company has attached great importance to the research and development of product technology and the application of new technologies. At present, Henan KELAIWEI Nano Carbon Material Co., Ltd. has deeply cooperated with Professor Sun Xiaogang's scientific research team of Nanchang University. Our company has obtained four national authorized invention patents, and many other patent applications are being accepted. Our company is committed to science and technology to benefit mankind and provide more convenient high-tech products for people's life and production.
The carbon content of crystalline cast iron is that chip manufacturing is one of the main battlefields for competition among major powers. Chip manufacturing must use higher standards of materials, and carbon nanotubes are one of the key materials in many materials. Carbon nanotubes have strong conductive and thermal conductivity and super mechanical properties, and high-end carbon nanotubes have become the base material for chip manufacturing. The 500 whisker carbon nano-tube powder production line constructed by Henan KELAIWEI nano-Carbon Material Co., Ltd. will enhance the high-end competitiveness of our products in the nano-material industry.
What are the advantages of Carbon Nanotubes? Carbon nanotubes are a new type of nanomaterials, which are widely used in modern society. Many products use carbon nanotubes. Carbon nanotubes are light in weight and small in volume, but not as good as tens of thousands of hair filaments. Carbon nanotubes have good thermal insulation and waterproof properties and can be used to make invisible equipment. Carbon nanotubes have rich mechanical properties, mechanical properties, chemical properties and physical properties.
The carbon content of the comcrystalline cast iron is that it adopts the traditional paper manufacturing process, the far infrared heating paper adopts the high temperature resistant fiber as the skeleton, and the whisker carbon nanotubes as the conductive fiber. The Paper produced has very good flexibility, the conductivity is very good. The use of whisker carbon nanotubes is easier to be evenly distributed on high-temperature fibers due to its excellent dispersion performance. The high-temperature fibers used have very good flame retardancy and high temperature resistance, can work for a long time below 200℃, and work for a short time at 350℃.
