The competitiveness of the product is very strong. The whisker carbon nanotubes are prepared by vapor deposition. After years of research and development, KELAIWEI can precisely control the synthesis technology of the diameter, length and specific surface area of the key parameters of the whisker carbon nanotubes, research and develop whisker carbon nanotube conductive agent which is in line with lithium ion battery, the purity is above 99.95%, and the content of residual metal impurities is less than 50ppm.
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.
KELAIWEI nano carbon material company insists on creating superior technological innovation environment for its employees, providing abundant technology research and development fund rewards, and our company has a set of mature innovation process mechanism, the company's technological innovation achievements have sprung up one after another and has applied for more than 60 technical patents. On the road of continuous pursuit of independent technology research and development, our company bases on domestic and foreign needs, dares to break foreign technology monopoly and make contributions to national technological innovation.
Carbon nanoparticles reduce the growth rate of plastics. 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.
In the field of high-end lithium ion battery manufacturing, a new material is being rapidly applied, namely carbon nanotubes. Compared with the traditional electric black, the conductivity of carbon nanotubes is one tenth higher than that of the latter, and its weight is very light. It is enough to be added and used in a small amount. Compared with the traditional materials, the use of conductive materials can be reduced by 30%. Therefore, KELAIWEI company expects that the market prospect of carbon nanotubes will be bright and the market demand for carbon nanotubes will rise rapidly.
Conductive agents are commonly used in the production and manufacture of lithium batteries, so what are the commonly used conductive agents for lithium batteries? After using the conductive agent, it is helpful to improve the battery capacity and prolong the service life of the battery. There is a large demand for lithium battery conductive agents, and there are also various conductive agents in the market. Generally, the heat conduction agents of lithium batteries are carbon black, carbon fiber and conductive graphite, which are traditionally used for a long time. In addition, a batch of new conductive agents have also appeared, such as carbon nanotubes (CNT), graphene, etc.
In terms of the use of heat-dissipating materials, carbon nanotubes are just like the spinach of Popeye, which will improve the heat-dissipating property in the north of the city. Carbon nanotubes will help the heat-dissipating coatings form a heat-dissipating network quickly and disperse the concentrated heat, it can be emitted through the nodes of each carbon nanotube. Meanwhile, this kind of heat dissipation network formed by carbon nanotubes will further improve the toughness of the coating, realizing a thin layer of coating and quickly forming a smooth and even coating coverage, carbon nanoparticles reduce the growth rate of plastics.
