KELAIWEI carbon nanomaterials company focuses on mastering core technology. The competition of high-end nanomaterials is the competition of cutting-edge technologies. Professor Sun Xiaogang of Nanchang University has led his team to study high-end nanomaterials for more than 20 years, applied for more than 100 technical patents, published more than 40 top Papers and Monographs, thus laying the technical foundation of KELAIWEI company. KELAIWEI company can provide you with high-end nanomaterials products and technical support.
How is carbon nanotubes made by chemical vapor deposition? Carbon nanotube materials are widely used and have strong properties, but their production is very low and the manufacturing process is complex. Therefore, scientists have continuously improved the manufacturing methods. Chemical vapor deposition method is used to produce carbon nanotubes, and its production efficiency is still relatively high. By chemical vapor deposition, carbon-containing gases are cracked by catalysts to obtain carbon nanotubes.
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.
Henan KELAIWEI Nano Carbon Material Co., Ltd. has invested a huge sum of money in technology research and development, and now it has fruitful results. The 106th technology invention patent has been taken in by KELAIWEI Technology Center. KELAIWEI company has a series of technological achievements, such as international PCT patent technology, national patent technology invention achievements, several industrial technical specialties and so on. In the future, the related technological patents KELAIWEI company will continue to obtain.
Whisker carbon nanotubes belong to coarse diameter and long length. Ordinary carbon nanotubes are short in length and fine in diameter after grinding. Ordinary carbon black belongs to granular conductive agent. Using the principle of composite conductive agent, ordinary carbon nanotubes and carbon black are compounded to produce composite conductive agent paste. The composite conductive agent paste gives full play to the advantages of various conductive agents and can still maintain a good conductive network in high magnification and circulation, mainly applied to silicon carbon negative pole, high-rate battery, Yuncheng city carbon nano tube floor heating company.
The far infrared emission band of the far infrared paper produced by our company ranges from 2 nanometers to 20 nanometers, and the electrothermal conversion rate is as high as over 99.5%. The application effect in the field of thermal products is obvious. After our company provided samples for a honeycomb heat exchanger manufacturer in Beijing, after the customer's trial, especially the inspection of the product quality control department, the performance of the honeycomb heat exchanger is significantly improved, and the energy saving effect is obvious, which can save more than 25% of energy compared with the previous one. Yuncheng carbon nanotube floor heating company.
The far infrared paper (FIRPs) of KELAIWEI company has excellent performance and wide application scenarios. KELAIWEI far infrared paper's electrothermal conversion efficiency is no less than 99.5%, the pure far infrared emission band is controlled at 2-20um, and it has the characteristics of being able to adjust the temperature freely, being highly flexible and suitable for various forms of processing, etc, therefore, it is being used by thermal equipment manufacturers, health therapy equipment companies, automobile, airplane and other manufacturers.
