Henan KELAIWEI Nano Carbon Material Co., Ltd has top nano material research and development teams and advanced manufacturing equipment at home and abroad. Our company is deeply concerned about your concerns and is willing to maintain in-depth cooperation with you to jointly promote the industrial application of high-end nanomaterials. Professor Sun Xiaogang, the core expert team of KELAIWEI, will lead the technical staff of KELAIWEI company to provide you with high-end nanomaterials technology and products.
What is special about the catalytic thermal decomposition of Carbon Nanotubes? Since carbon nanotube materials were discovered in the laboratory by Japanese physicists in 1991, world physicists have exhausted what they have learned and synthesized carbon nanotubes in various ways. Catalytic thermal decomposition method adopts carbon organic matter to react through high temperature environment of 400-600 degrees and high temperature environment of 700-1000 degrees. Carbon materials are mixed with solvent water, catalyst and materials, and then filtered and dried after stirring and dipping. After catalytic reaction, after washing and ultrasonic shock, carbon nanotubes are finally produced.
KELAIWEI nano carbon material company has been deeply engaged in the technical field of high-end nano materials for more than 20 years. Our company's product technology is in the charge of the industry's top experts such as Professor Sun Xiao of Nanchang University. The production of our products is controlled by ISO9001 and IATF16949 quality management system. Our products are strictly monitored by industry technicians, with modern scientific and technological process production, we provide customers with high-end nanomaterials products with stable performance.
KELAIWEI company's second series of "reviewing the development history · encouraging young talents to strive for the first": outstanding achievements of KELAIWEI technology in 2008. KELAIWEI company focuses on the research of various kinds of whisker carbon nanotubes. Professor Sun, the chief engineer, led the team to tackle key problems for several years, and finally successfully prepared whisker carbon nanotubes in 2008, which helped our country to further break the foreign blockade of whisker carbon nanotubes technology in our country. It also sets up the basic methods and product development direction of our company's technology research and development.
Adding carbon nanotubes can improve the wear resistance and thermal conductivity of automobile tires by 30%, and greatly improve the service life of tires. At present, only Michelin company abroad has the production technology of carbon nanotubes enhanced tires, KELAIWEI, qingdao University of Science and Technology and Qingdao Linglong Tire three parties cooperate to jointly develop carbon nanotubes reinforced tire adding 1-3% whisker carbon nanotubes can improve the wear resistance of tires by 30% and the thermal conductivity by 20%, greatly improve the comprehensive performance and service life of tires.
Europium chloride filled with carbon nanotubes. A research institution of hidden materials and wearable equipment in Beijing paid close attention to the whisker carbon nanotubes produced by Henan KELAIWEI nanometre Carbon Material Co., Ltd. and expressed its willingness to invest and cooperate with KELAIWEI company to explore the market. The whisker carbon nanometer synthesized by our company through our own technology has ultra-high purity, with very few metal impurities and purity higher than 95.950%. At the same time, its graphitization degree is higher than 65%.
The high-purity carbon nanotubes produced by Henan KELAIWEI nano-Carbon Material Co., Ltd. have excellent conductivity and are widely used in the field of modern automobile manufacturing. The polymer materials using carbon nanotubes have surface conductivity, therefore, Electrostatic spraying can be carried out in the manufacturing of automobile parts, thus simplifying the manufacturing process, improving the production efficiency of products and helping to reduce the pollution force to the environment in production. Europium chloride fills carbon nanotubes.
