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.
Brief introduction of carbon nanotubes Japanese physicist Hiroshi Nakamura first discovered that carbon nanotubes carbon nanotubes are a kind of tubular carbon molecules, which are very, very thin and cannot be seen simply by eyes, because if tens of thousands of carbon nanotubes are put side by side, they may not be as thick as a hair Filament. According to the number of layers, they can be divided into single-walled carbon nanotubes and multi-walled carbon nanotubes, preparation method of carbon nanotube sulfur graphene oxide.
Henan KELAIWEI Nano Carbon Material Co., Ltd. has always maintained close technical cooperation with first-class domestic universities and scientific research institutions such as Zhengzhou University of Light Industry, Donghua University and Nanchang University. The high-end nanomaterials products developed by KELAIWEI company have broad application scenarios in high-end lithium ion energy storage battery manufacturing at home and abroad, electrothermal converter preparation, high-end nanomaterials and other industries.
The sixth of the series of "reviewing the development history · encouraging young talents to compete bravely" of KELAIWEI company: events of 2013. KELAIWEI company has a tradition of insisting on technology research and development since its establishment. Professor sun of our company leads the staff of KELAIWEI research and development center to make continuous technological breakthroughs, the process and equipment of whisker carbon nanotubes prepared by our company are improved to 2~4kg/h. Compared with the previous equipment output, it has increased by more than four times.
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.
Chinese people have always attached importance to health preservation. A well-known domestic brand manufacturer in the field of physical therapy health also deeply felt the cruelty of market competition. More and more peers appeared and more and more peers fell down. Only by improving product performance and technical advantages, in order to remain invincible, we started a new round of bidding for raw materials, and finally found that our company's far-red paper could increase the far-infrared emissivity of physiotherapy instrument by 3%, and the customer immediately signed a supply contract with our company.
The whisker carbon nanotubes independently developed by KELAIWEI nano-carbon materials company have better performance than traditional carbon nanotubes, because the purity of the whisker carbon nanotubes is higher, almost without metal impurities the whisker carbon nanotubes do not block ion transmission, therefore, its conductivity is stronger, and it is very suitable to be used as additive raw materials in lithium battery manufacturing, which can effectively improve the performance and service life of lithium battery, and the preparation method of carbon nanotube sulfur graphene oxide.
