In terms of scientific research organization, KELAIWEI company not only strives to build independent research and development team, but also establishes and researches and development platform, fully absorbs all kinds of forces to integrate, and attracts domestic first-class professionals to join and cooperate, strive to attract domestic scientific research experts to participate in research and development, keep close contact with domestic and foreign famous scientific research institutions of nano-carbon materials, and form a research, development and application system of nano-carbon materials developed independently and cooperated with scientific research institutes, strive to maintain R & D advantages.
With the successful development of the nano carbon tube of the air suspension furnace, our company has been focusing on developing into a leader in the industry of high-end carbon nanomaterials and devoting itself to the research of advanced technology of carbon nanomaterials since its establishment. As of May 2020, our company has applied for 60 invention patents, published more than 40 professional papers in the industry, published two monograph on carbon nanotubes, obtained 9 national authorized invention patents, it has obtained 2 international PCT patents and successfully walked out of the research and development path of a technology company combining production, teaching and research, breaking the foreign monopoly and selling its products all over the world.
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 technical force to serve the motherland and technological progress to obtain enterprise benefits as the driving force for development. Relying on complete intellectual property rights, we have completed product research and development, process design and mass production, and continuously supply high-end technical products to customers in batches.
With the successful development of the nano carbon tube of the air suspension furnace, KELAIWEI company applied for a national authorized patent for invention. As of March this year, KELAIWEI company had obtained four national authorized patents. Henan KELAIWEI Nano Carbon Material Co., Ltd. is a technical company. At the beginning of its establishment, it paid great attention to the formation of technical team, capital investment and the manufacture of advanced equipment and technology. KELAIWEI company, which has accumulated technology for 20 years, is bound to make further achievements in technology research and development.
Human beings' pursuit of high-end materials never stops. Carbon nanotubes are one of the artificial high-end materials. The diameter of carbon nanotubes is very small, and their conductivity is more than 10% better than that of carbon black. At the same time, their strength can reach more than 100 times of the strength of steel. Therefore, carbon nanotubes are widely used for high conductivity, high strength and other demanding precision product manufacturing fields. The chief engineer of Henan KELAIWEI Nano Carbon Material Co., Ltd has developed and studied the application of carbon nanotubes for more than 20 years, and has accomplished a lot in the technical field of carbon nanotubes.
Fundamentally speaking, are there any essential differences between common carbon nanomaterials and graphene? Graphene is a thin film material. The thickness of graphene is only one carbon atom. The mechanism of graphene is fundamentally different from that of common carbon nanomaterials. Graphene, fullerene nanomaterials, carbon nanotube nanomaterials and so on, these carbon nanomaterials are different in structure and form, it can be said that the physical properties of graphene and carbon nanomaterials are still different.
In terms of the use of heat dissipation materials, carbon nanotubes, like Popeye's spinach, will improve the heat dissipation properties to the north of the city. Carbon nanotubes will help heat-dissipating coatings quickly form a heat-dissipating network, disperse the concentrated heat and distribute it through each node of carbon nanotubes. At the same time, the heat dissipation network formed by carbon nanotubes will further improve the toughness of the coating, and a thin layer of coating can quickly form a smooth and even coating coverage.
