The Polyacetal of carbon nanotubes, in the aspect of the development of nano-carbon materials in our country, KELAIWEI has been engaged in industry-related research for more than 20 years. The research and development team of nano-carbon materials in KELAIWEI is led by Professor Sun Xiaogang of Nanchang University, KELAIWEI is committed to helping to realize the leading force of nano carbon material industry in China, insisting on independent development, helping to realize the complete localization of carbon nano-tube materials, and contributing to the manufacturing technology of carbon nano-tube materials in China, polyacetal of carbon nanotubes.
Carbon nanotubes have excellent performance, especially in the 21st century, under the extensive and in-depth research on nanomaterials in industrial production, the performance advantages of carbon nanotubes have been gradually explored and developed and applied to many industrial manufacturing. Carbon nanotubes are very light in weight, nearly perfect in connection structure, and have extremely rich properties. Henan KELAIWEI Nano Carbon Material Co., Ltd. is currently expanding the production of whisker carbon nanotubes, making its production capacity reach 500 tons per year.
Henan KELAIWEI has a very perfect product research and development system, quality control system and after-sales service system in the industry. KELAIWEI company has strict inspection and assessment standard system in every link from Project establishment and development of products to industrial production, delivery of customers for testing and so on. KELAIWEI is committed to becoming a leader in the high-end nanomaterials industry, serving customers with advanced technology and delivering customers with high-end products.
Henan KELAIWEI Nano Carbon Material Co., Ltd. Made a major breakthrough in manufacturing technology of process equipment. KELAIWEI company is committed to the research of high purity technology and high yield equipment manufacturing of whisker carbon nanotubes. With the joint efforts of the technology center and equipment manufacturing center of KELAIWEI company, the production capacity of a single set of whisker carbon nanotubes manufactured by our company has reached 30 tons per year. Our company has decided to make additional investment and has already expanded the research results.
Whisker carbon nanotubes have very high graphitization degree, and materials with high graphitization degree generally have good radiation and heat dissipation effect. KELAIWEI cooperated with Dengcao J Company to develop heat dissipation copper foil, the thermal conductivity in Z direction can reach more than 100w/(m · K) by utilizing the heat-dissipating copper foil made of whisker carbon nanotubes and the radiation heat-dissipating characteristic of carbon nanotubes, which can conduct far infrared continuous heat dissipation, the heat dissipation is sustainable and the heat dissipation effect is good. At present, the product is in the pilot test stage for Huawei and other customers.
A remote infrared thermal clothing brand in the South began to expand the northern market. Therefore, it established a branch company in the north and came into contact with our remote infrared paper in the bidding and purchasing of raw materials. After testing, its product Center found that, our company's far infrared paper can improve the thermal performance of its far infrared thermal clothing by 0.9% compared with the previous one, and then we began to negotiate and cooperate with our company, and have provided targeted products to help it further improve the product performance.
The higher the purity of whisker carbon nanotubes and the less metal impurities are, the higher the purity can be selectively applied in the manufacturing field of high-end power lithium batteries. KELAIWEI company found that because the ultra-high purity whisker carbon nanotubes have very high adsorption force on electrolyte, therefore, whisker carbon nanotubes with very little impurity content of ultra-high purity can be used as the anode material and anode material additive of lithium ion battery.
