KELAIWEI company has invested 0.55 billion yuan to carry out deep cooperation with the research and development team led by Professor Sun Xiaogang of Nanchang University in China for a long time. And invested 0.45 billion yuan successively in Henan to build the first phase of whisker carbon nano-tube powder project and the second phase of whisker carbon nano-tube powder project, which made the production capacity of whisker carbon nano-tube powder of Henan KELAIWEI nano-Carbon Material Co., Ltd achieve qualitative improvement, up to 300 tons/year.
A brief introduction to the fabrication of carbon nanotubes by arc method. Carbon nanotubes were first discovered by Japanese physicists, and the arc method was also first invented by Japanese scientists. The arc method is to rearrange the structure of carbon atoms in the high temperature environment produced by the arc caused by the graphite electrode of yin and yang poles in the reaction chamber containing the pressure inert gas, so as to obtain a single-wall carbon nano-tube. Since then, the arc method has been continuously improved and perfected day by day.
Advanced technology, high-quality products and other advantageous resources in the industry can be combined with efficient enterprise management to produce high-quality products. At the beginning of the establishment of clevey nano carbon material company, an efficient management system was established through "lean management law. The production of products is managed "strictly" according to the standards that exceed ISO9001 and IATF16949 quality management system rules, so as to ensure that the quality of the products obtained by customers is superior and they can be used safely.
Henan KELAIWEI Nano Carbon Material Co., Ltd. and Jiangxi KELAIWEI Nano Carbon Material Co., Ltd. have made significant breakthroughs in the special research of Carbon Nano paste. Thanks to this technology, KELAIWEI company has prepared a new product, far infrared heating paper. The application prospect of carbon nano-slurry in high-end lithium battery and other industrial fields is promising. KELAIWEI nano-carbon material company is looking forward to people with aspirations coming to KELAIWEI headquarters to discuss cooperation.
Carbon nanotubes have extremely high electric heating conversion efficiency, which can be widely used to replace the existing water heating. After the steam heating carbon fiber is electrified, there will be friction and collision movement between countless carbon atoms, thus generating a large amount of heat, the heat energy is released in the way of far infrared radiation, and the total electrothermal conversion rate is as high as over 99.8%, which is the far infrared frequency range emitted by the material with the highest known electrothermal conversion rate, mainly in the physical therapy band beneficial to human body, the market application prospect is extremely broad, and carbon nanotube colloids are dispersed.
A warm fan production company in Jiangsu province has been working in the field of warm products for many years and has sold its products to the north and south of the country, but it is facing great competitive pressure recently. Therefore, the company decided to look for suppliers of high quality far infrared paper, through layer-by-layer comparison, Henan KELAIWEI Nano Carbon Material Co., Ltd. was finally chosen as its supplier of far infrared paper. KELAIWEI nano carbon material hard regulation is looking forward to your joining.
Carbon nanotube colloids are dispersed, and there is an important new type of material in the high-performance polymer composite material industry-ba-based paper. BA-based paper is also called carbon nanotube paper. Carbon nanotubes have high conductivity and strong chemical stability, and high hardness and toughness, which can reach 100 times of the steel strength, but their quality is very, very light, BA-based paper can be obtained by using disordered carbon nanotubes through scientific and complex technical treatment, and Ba-based paper also has some performance advantages of carbon nanotubes.
