In terms of the development of nano-carbon materials in China, KELAIWEI has been engaged in industry-related research for more than 20 years. KELAIWEI's research and development team of nanometre carbon materials is led by Professor Sun Xiaogang of Nanchang University. KELAIWEI is committed to helping to realize the leading force of nanometre carbon materials industry in China, insisting on independent development and helping to realize the complete localization of carbon nanotube materials, it has contributed to the manufacturing technology of carbon nanotube materials in China by KELAIWEI.
As nanoscale carbon materials, what are the characteristics of Carbon Nanotubes? Since it belongs to nanomaterials, it is naturally very, very light (ultra-lightweight quality), which may benefit from its own hexagonal connection structure characteristics. Carbon nanotubes have good mechanical and mechanical properties, the strength of toughness is just a hundred times, and it also has very good electrical conductivity and thermal conductivity, which is also widely used in many high-end manufacturing industries.
Since its establishment, Henan KELAIWEI nano-Carbon Material Co., Ltd. has been insisting on promoting the development of China's high-end nano-material industry, breaking the foreign monopoly on high-end nano-material technology as its own duty, and insisting on independent research and development and innovation, take the technical force to serve the motherland and the technological progress to obtain the benefits of the enterprise as the development driving force rely on the complete intellectual property rights, complete product research and development, process design, mass production, and continuously supply high-end technical products for customers in batches, prices of carbon nanotubes and carbon molecular sieves.
Major events in 2006 of the series of "reviewing the development history · encouraging young talents to compete bravely" of KELAIWEI company. Professor Sun, chief technical engineer of KELAIWEI company, is deeply sorry for the long-term technical blockade of nanomaterials technology and products in some countries, the research on the technology and equipment of the process synthesis of whisker nanomaterials began in 2006. This move established the independent research and development innovation spirit of clevere company, which is "dare to think, dare to do and dare to challenge.
The prices of carbon nanotubes and carbon molecular sieves, unmanned aerial vehicle batteries have high requirements for lithium ion batteries, which need to be discharged in a short time at high magnification, and whisker carbon nanotubes are added to unmanned aerial vehicle lithium ion batteries as conductive agents, the rate performance of the battery is improved, the internal resistance is reduced, the power output is larger, the cycle performance is improved, the flight time of the unmanned aerial vehicle can be longer, and the service life of the battery is longer, at present, KELAIWEI has cooperated with Company C, and the product performance is equivalent to that of Japan's Showa electrician.
A manufacturer of far infrared mouse pad in Guangdong, engaged in the production and sales of far infrared mouse pad for more than three years, has accumulated a large number of long-term customers, but the market competition of far infrared mouse pad is fierce, only by constantly improving the energy-saving performance of our products can we retain our old customers. Through contact with our company, we know that far infrared paper can be applied to the production of its products, which can not only save its manufacturing materials, the far infrared emissivity is also increased to 99.8%.
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.
