KELAIWEI specializes in the preparation technology of nanomaterials for more than 20 years. In the past 20 years, Professor Sun Xiaogang's technical research and development team of Nanchang University has continuously output technical achievements. Now KELAIWEI company has helped enterprises in more than 60 countries around the world to solve the required nanomaterials products. The manufacturing equipment and technology of whisker carbon nanotubes researched and developed by our company by ourselves have the dominant advantage of technology at home and abroad. Our company has applied for 106 patents including 9 national authorized invention patents and 2 international PCT patents.
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.
Carbon nanotubes are filtered into films, and Henan KELAIWEI has a very perfect product research and development system, quality control system and after-sales service system in the industry. KELAIWEI company has strict inspection and assessment standard system in every link from Project establishment and development of products to industrial production, delivery of customers for testing and so on. KELAIWEI is committed to becoming a leader in the high-end nanomaterials industry, serving customers with advanced technology and delivering customers with high-end products.
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.
Using the far infrared transmitting paper made of whisker carbon nanotubes and high-temperature fiber, the far infrared transmitting paper can heat objects by emitting far infrared waves under electrification, and can be applied to aircraft wing deicing in the field of high-temperature heating, high-voltage wire deicing, Car Rearview mirror heating water mist removal, electric steering wheel, water heater, electric kettle, electric lunch box, fast liquid heat exchanger, solar seawater desalination evaporator, etc., heating temperature is generally above 100℃, at present, the market scale is over 100 billion.
The far infrared emission band of the paper produced by our company ranges from 2 nanometers to 20 nanometers, and the electrothermal conversion rate is as high as over 99.5%, which has obvious application effect in the field of thermal products. After our company provided samples for a honeycomb heat exchanger manufacturer in Beijing, the performance of the honeycomb heat exchanger was significantly improved, and the energy-saving effect was obvious after the trial of customers, especially the test of the product quality control department, which could save more than 25% of energy compared with the previous one.
Carbon nanotubes are filtered to form a film, and Henan KELAIWEI Nano Carbon Material Co., Ltd has formed a new material-carbon nanotube paper, also known as Ba-based paper, by using a series of disordered carbon nanotube materials with a certain length. Carbon nanotube paper has a larger specific surface area than carbon fiber paper. The strength performance of Ba-based paper is similar to that of thermal conductive graphite sheet. Ba-based paper has ultra-high thermal conductivity due to the use of carbon nanotubes.
