KELAIWEI company pays attention to the cultivation of high-tech talents, and has established a strategic cooperative relationship of "production, study and research" with Zhengzhou University of Light Industry, Nanchang University and Jiangxi University of Technology, jointly cultivating high-level talents in material science and technology, up to now, 3 postgraduates have been trained. The company encourages employees to continue their studies, organizes regular training for company personnel, improves their own scientific research strength, and cultivates the scientific research interests of research and development personnel, at present, the company has excellent academic environment and scientific research atmosphere.
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.
Far infrared nano carbon ink plate, KELAIWEI nano carbon material company is a patriotic company. Facing the monopoly of foreign technology to our country, KELAIWEI people are determined to break their monopoly and become the "leader" of high-end nanomaterials industry, contributing to the society and the country. After more than 20 years of research and development, KELAIWEI carbon nanotubes, far infrared paper (FIRPs) and other technologies are the mainstay, and its products are exported to domestic and overseas markets.
Due to the impact of the epidemic, the consumer Festival on March 15 this year is less focused than in previous years. But Henan KELAIWEI Nano Carbon Material Co., Ltd. has always insisted on contract and credit, paid high attention to the honest and trustworthy education for employees, and paid attention to the establishment and maintenance of the company's honest and trustworthy corporate image, ensure that the products leaving the factory have passed the quality inspection of the Quality Inspection Center of KELAIWEI company, and our company insists on providing you with high-quality products. Choosing KELAIWEI company means choosing honest business partners.
Once discovered, carbon nanotubes are destined to become the materials widely used in high-end manufacturing industry the demand of high-end equipment manufacturing industry for materials with higher strength, higher tenacity, higher electrical conductivity and higher thermal conductivity never stops, on the contrary, with the progress of science and technology becoming stronger, and carbon nanotubes are exactly the materials of this kind KELAIWEI company is looking forward to carrying out deep cooperation with you in the field of carbon nanotubes, far infrared nano carbon ink plate.
Brief introduction of carbon nanotubes. Carbon nanotubes are a kind of nanomaterials, and they also have the name: Pakistan tube. Carbon nanotubes are composed of carbon atoms with hexagonal structure layer by layer, and the distance between each layer of carbon atoms is about 0.34 nanometers. It can't be seen by naked eyes, and its weight can't be felt by hands. Carbon nanotubes have very rich properties, such as conductivity, heat conduction, stable structure, acid resistance, alkali resistance and water resistance......
After graphite treatment, the atomic arrangement in the material is more regular, and the thermal stability of the material is better. Through thermogravity analysis, it is concluded that the material below 800℃ has very good thermal stability, the thermoweightlessness rate is below 5%. Common carbon nanotubes have many defects in the growth process, at the same time, the crystallization degree is low, and the thermal stability of the materials is poor, generally, obvious oxidation will appear below 500℃, thermal weight loss rate is generally above 20%, and antioxidant capacity is poor.
