"The backbone of technology, high product performance, service Satisfaction" is the business philosophy that the technical staff of Henan KELAIWEI nano-Carbon Material Co., Ltd insist on implementing in the development of more than 20 years. The R & D team of KELAIWEI takes the lead of Professor Sun Xiaogang, the top domestic nano-material research expert, more than 100 patents have been applied, and 9 national patents have been owned. Clayey pursues promoting the leapfrog development of nanomaterials with technological progress, and the electrical performance of spiral carbon nanotubes.
Brief introduction of carbon nanotubes. Carbon nanotubes are a kind of nanomaterials, and they also have the name: Pakistan tube. Carbon nanotubes are composed of carbon atoms with hexagonal structure layer by layer, and the distance between each layer of carbon atoms is about 0.34 nanometers. It can't be seen by naked eyes, and its weight can't be felt by hands. Carbon nanotubes have very rich properties, such as conductivity, heat conduction, stable structure, acid resistance, alkali resistance and water resistance......
Henan KELAIWEI Nano Carbon Material Co., Ltd. has established cooperation with Zhengzhou University of Light Industry, Donghua University, Nanchang University and other universities, among which the technology research and development team led by Professor Sun Xiaogang of Nanchang University has been engaged in research for more than 20 years, he co-founded Henan KELAIWEI Nano Carbon Material Co., Ltd with our company. Therefore, our company has profound technical deposits, and the research and development of Far Infrared paper (FIRPs) products, whisker-like carbon nanotubes and other materials sell well at home and abroad.
The R & D center of KELAIWEI company has benefited from the R & D achievements of Professor Sun of Nanchang University in China for decades, and the Technology Center has gained new strength. KELAIWEI company has obtained two technical whisker carbon nanotube technology patents, nine national authorized technology patents, and the international PCT patent has been successfully declared. In addition, the planning department has learned that new research results will be published in the form of papers in the near future. KELAIWEI company is very grateful to experts and industry associations at home and abroad for their support and help to our company.
As a high-quality gas sensitive material, carbon nanotubes show much higher sensitivity and stability than other similar products in the performance of gas molecules. The gas sensitivity of carbon nanotubes is mainly reflected by the change of sensor resistance value, but due to the different initial values of different sensors, the change amplitude of different sensors is also different under the same gas. Sensors made of whisker carbon nanotubes have been deeply studied on portable gas detection equipment, and it is believed that corresponding products will come out soon.
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 far infrared paper (FIRPs) produced by Henan KELAIWEI Nano Carbon Material Co., Ltd. has excellent performance: high flexibility, good waterproof performance, suitable for acid and alkali resistant environment, not only can be punched and folded, moreover, the far infrared paper which can be thermoplastic molded by our company is widely purchased and used by many thermal equipment manufacturers, ultra-low temperature battery manufacturers, automobile manufacturers and so on for its excellent performance, and the electrical performance of spiral carbon nanotubes.
