As for the price of carbon nanotube protectors, KELAIWEI has been engaged in industry-related research for more than 20 years in the development of nano-carbon materials in our country. KELAIWEI's research and development team of nanometre carbon materials is led by Professor Sun Xiaogang of Nanchang University. KELAIWEI is committed to helping to realize the leading force of nanometre carbon materials industry in China, insisting on independent development and helping to realize the complete localization of carbon nanotube materials, it has contributed to the manufacturing technology of carbon nanotube materials in China by KELAIWEI.
Why are graphene electric floor heaters made of graphene electric heating film materials so popular with market customers? Graphene electrothermal film is a new high-tech material with stable performance. The electric floor heating made of graphene electric heating film has a long service life, up to 50 years. Secondly, the electric floor heating made of graphene electric heating film is more energy-saving, and more than 99% of the electric energy can be converted into heat energy. Finally, the electric floor heating made of graphene electric heating film is easy to maintain and the price is low.
The batch production line equipment of far infrared heating paper independently developed, processed and prepared by Henan KELAIWEI Nano Carbon Material Co., Ltd. has achieved an annual capacity of 60 tons, and our company is fully capable of expanding the production capacity of far infrared heating paper at any time to meet the huge demand of customers for far infrared heating paper. In addition, our company spent 0.45 billion yuan to design and develop the whisker carbon nanotube powder engineering project, which will achieve an annual production capacity of 300 tons.
Henan KELAIWEI Nano Carbon Material Co., Ltd. has invested a huge sum of money in technology research and development, and now it has achieved fruitful results. The 106th technology invention patent has been included by KELAIWEI Technology Center. KELAIWEI company owns international PCT patent technology, national patent technology invention achievements, A series of technical achievements, such as several industrial technical specialties, will be available in the future. The relevant technical patents KELAIWEI company will continuously obtain the price of carbon nanotube protectors.
After continuous research and development by the technical team, KELAIWEI company has successfully developed carbon nanotube conductive coatings. This kind of coating has the characteristics of high conductivity and low cost, which can effectively reduce the weight of the car. The key point of this kind of coating research and development lies in the dispersion of carbon nanotubes. Carbon nanotubes can be effectively dispersed in the paint, which not only stabilizes the conductivity, but also solves the phenomenon of color inconsistency of the paint to a certain extent. At the same time, KELAIWEI is also working hard to realize the mass production of this product and technology.
A power battery production and research institution in Guangdong province is seeking to purchase a batch of power whisker carbon nanotubes for its new generation of power battery development. The other side made a high request. For example, high requirements are required for purity, transportation and storage, stability, supply, etc. Our products fully meet the needs of the other party. Henan KELAIWEI Nano Carbon Material Co., Ltd. Has studied whisker carbon nanotubes for more than 20 years. It has completely independent intellectual property rights and can process whisker carbon nanotubes with purity over 95%. Its shelf life is 6 months and its performance is stable.
Henan KELAIWEI Nano Carbon Material Co., Ltd has the patented technology of whisker carbon nanotube production process and equipment manufacturing. The structural characteristics of whisker carbon nanotubes are excellent, with very high aspect ratio and conductivity. As an additive of electrode materials, they can be used to successfully build a highly complete electronic conduction network, therefore, it can be combined with electrode materials to produce high-performance composite electrode materials.
