After more than 20 years of hard Development, Henan KELAIWEI Nano Carbon Material Co., Ltd has owned independent intellectual property rights of production and processing technology and equipment in the field of whisker carbon nanotubes. KELAIWEI company has realized the industrial mass production of high-performance whisker carbon nanotubes, and our company has reached cooperation with more than 100 enterprises at home and abroad. As long as there is demand for whisker carbon nanotubes products in the market, KELAIWEI company will appear.
What are the functions of small particle conductive carbon black? Carbon Black, as a conductive agent, can have the value of liquid absorption and retention in batteries. The conductivity of carbon black is excellent. There are a lot of conductive carbon Black which has been widely used, such as (Acetylene Black) Acetylene Black made by calcium carbide method, high-efficiency superconductivity Corion Black specially for lithium battery, graphite conductive agent, carbon nanotubes and so on.
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.
Guangdong province carbon nanotube electrothermal film product manufacturer, green environmental protection and non-toxic and harmless whisker carbon nanotubes modern industrial production line has been built in the factory area of KELAIWEI company. The process equipment and technology of this whisker carbon nanotubes production line are completely researched and developed independently by the technical staff of KELAIWEI company, and our company has all relevant technical invention patents. The completion of this project will "greatly encourage" the domestic and foreign counterparts of KELAIWEI company, and jointly promote the development of the production and research of carbon nanotube materials.
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 wearable equipment research and manufacturing company in Hong Kong once learned from the Shanghai Convention and Exhibition Center that the purity of the power whisker carbon nanotubes produced by Henan KELAIWEI Nano Carbon Material Co., Ltd. is over 95.950%, and the graphitization degree is over 65%, the thermal conductivity of a single root is not less than 1200W/m.k, the aperture is between 1 nm and 5 nm, and has recently reached a supply contract with our company. Henan KELAIWEI company not only wins the cooperation of customers with high-quality products, but also makes you feel more comfortable to buy with high-quality services.
After entering the 21st century, with the development of Internet of Things technology and 5G technology and the progress of social technology, the research on wearable devices has been heated. However, carbon nanotubes are used as the power part of making wearable equipment due to their excellent characteristics of thermal conductivity, light weight, high toughness and high strength: CNT lithium battery PI heating film. Henan KELAIWEI Nano Carbon Material Co., Ltd. has been researching for more than 20 years for whisker carbon nano carbon materials.
