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.
KELAIWEI specializes in the preparation technology of nanomaterials for more than 20 years. In the past 20 years, Professor Sun Xiaogang's technical research and development team of Nanchang University has continuously output technical achievements. Now KELAIWEI company has helped enterprises in more than 60 countries around the world to solve the required nanomaterials products. The manufacturing equipment and technology of whisker carbon nanotubes researched and developed by our company by ourselves have the dominant advantage of technology at home and abroad. Our company has applied for 106 patents including 9 national authorized invention patents and 2 international PCT patents.
Since its establishment in 2018, Henan KELAIWEI Nano Carbon Material Co., Ltd has paid great attention to the development of high-end nano material technology and the formation of talent team. In order to realize the scientific research goal of clevere company, our company has maintained deep cooperation with many domestic universities and scientific research institutions. For example, the team of Professor Sun Xiaogang from Nanchang University, Donghua University, Zhengzhou University of light industry and other universities continuously input product technology and talent strength for our company.
Carbon steel door plate and crystal steel door plate, KELAIWEI company applied for national authorized patent invention good news by March this year, KELAIWEI company won four national authorized patents Henan KELAIWEI Nano Carbon Material Co., Ltd is a technology company, at the beginning of its establishment, it paid great attention to the formation of technical teams, capital investment and the manufacture of advanced equipment and technology. KELAIWEI company, which has accumulated technology for 20 years, will surely make further achievements in technology research and development, including carbon steel door panels and crystal steel door panels.
There is a new material-carbon nanotubes are widely used in modern manufacturing industry. The strength of carbon nanotubes can reach 100 times of that of steel, and its strong thermal conductivity and conductivity can be equivalent to that of diamond and copper. Henan KELAIWEI Nano Carbon Materials Co., Ltd. learned that a large multinational enterprise in South Korea recently invested more than 300 million yuan to expand the capacity of carbon nanotubes, in the future, the competition in the carbon nanotube industry is bound to have a "growing momentum".
Brief introduction of carbon nanotubes. Japanese physicist Yoshima Yoshino was the first to discover carbon nanotubes. Carbon nanotubes are tubular carbon molecules. Carbon nanotubes are very, very thin and cannot be seen simply by eyes, because tens of thousands of carbon nanotubes are put side by side, it may not be as thick as a hair. According to the number of pipe layers, it can be divided into single-walled carbon nanotubes and multi-walled carbon nanotubes.
After graphite treatment, the atomic arrangement in the material is more regular, and the thermal stability of the material is better. Through thermogravity analysis, it is concluded that the material below 800℃ has very good thermal stability, the thermoweightlessness rate is below 5%. Common carbon nanotubes have many defects in the growth process, at the same time, the crystallization degree is low, and the thermal stability of the materials is poor, generally, obvious oxidation will appear below 500℃, thermal weight loss rate is generally above 20%, and antioxidant capacity is poor.
