The R & D team of KELAIWEI is an experienced team. The R & D leaders in the team are superior in terms of the knowledge in the industry, the intake of new knowledge, and the control of the development trend of the industry, with the brainstorming of other team members, the R & D strength of the whole team has been continuously improved. At the same time, in order to further ensure the autonomy and controllability of products, the company has also strengthened the development of the subsequent process, further improved the production process of products, and ensured the controllability of product quality.
As the country comprehensively promotes the rapid development of high-end manufacturing industry, the high-end nanomaterials products produced by KELAIWEI nanomaterials company are also in short supply. In view of this, our company has invested 0.45 billion, build the project of whisker carbon nanotube powder with annual processing capacity of 300 tons. KELAIWEI Co., Ltd. has always been at the forefront of carbon nanomaterials industry and is willing to explore the domestic and overseas markets of carbon nanomaterials together with its partners.
Changchun optical machine NANO silicon carbide, Henan KELAIWEI Nano Carbon Material Co., Ltd. is one of the well-known enterprises in the high-end nano material industry. KELAIWEI owns 2 international PCT patents, 9 national patents, more than 40 industry papers and 2 monograph on carbon nanotube industry...... In the field of high-end nanomaterials, the leaders of KELAIWEI company make decisions to continuously invest heavily in research and development. Our company will continue to tackle key problems, continue to break the technology monopoly of foreign industries, and make contributions to the development of nanomaterials technology in our motherland.
Henan KELAIWEI Nano Carbon Material Co., Ltd pays attention to the rapid growth of new employees, quickly integrates into the KELAIWEI family, and quickly invests into our daily work. Recently, the safety and environment department of our company has carried out production skills training and safety knowledge training for new employees in the production department and the new employees in the electrical and mechanical department. The growth and rapid development of our company need the participation of new employees, who inject new strength into our company's take-off.
Changchun optical machine NANO silicon carbide, silicon-based device is a large-scale commercial electronic device, but the pursuit of science is endless, always pursuing the production materials with stronger performance and smaller size. However, carbon nanotubes have super high conductivity, whose strength is 100 times higher than that of steel, and their thermal conductivity is very strong, which is 10% better than that of carbon black, therefore, carbon nanotubes will become important materials to replace silicon-based devices.
The floor heating made of carbon fiber cable should be on guard! Carbon fiber cable floor heating is also called carbon crystal floor heating. The voltage difference promotes the irregular movement of carbon atoms, and the irregular movement between carbon atoms generates friction, which will generate heat to realize heating. However, there is no unified national regulatory standard in the industry for floor heating made of carbon fiber heating cables, at the same time, the carbon fiber heating cable will seriously affect the heating effect after some poor contact occurs at the joint port. Therefore, we should carefully choose such electric heating products.
The resistivity of powder is an important index to characterize the electrical conductivity of materials. The lower the resistivity, the better the electrical conductivity of products, under the pressure of 20Mpa, the powder resistivity value of whisker carbon nanotubes can reach below 8mΩ · cm, and the resistivity of ordinary carbon nanotubes is above 15mΩ · cm, the resistivity of conductive carbon black is above 100mΩ · cm, and the resistivity of whisker carbon nanotubes is the lowest, which can ensure ultra-high conductivity on lithium ion batteries and composite materials.
