The research and development team of Henan KELAIWEI nano-Carbon Material Co., Ltd. has been striving for the high-end nano-material industry of the motherland for more than 20 years, and finally relies on technology self-research, patent invention, high-end manufacturing technology, professional services expand overseas nanomaterials market in more than 60 countries and regions. KELAIWEI will build the project of "whisker carbon nano-tube powder" with an annual output of 300 tons, which will surely supply customers with high-end products and advanced technical services stably.
As nanoscale carbon materials, what are the characteristics of Carbon Nanotubes? Since it belongs to nanomaterials, it is naturally very, very light (ultra-lightweight quality), which may benefit from its own hexagonal connection structure characteristics. Carbon nanotubes have good mechanical and mechanical properties, the strength of toughness is just a hundred times, and it also has very good electrical conductivity and thermal conductivity, which is also widely used in many high-end manufacturing industries.
KELAIWEI company invested 0.45 billion yuan to build dozens of production lines in Henan production base, owning a factory area of 15000 square meters, and designed the production line of whisker carbon nano-tube powder with an annual output of 500 tons, the production capacity of the first phase and the second phase of the project is 150 tons/year. The company mainly researches and develops whisker-like nano-synthesis process and equipment, carbon nano-powder, carbon nano-slurry, mixed slurry and other products, preparation of carbon nanotube graphene oxide.
KELAIWEI company's second series of "reviewing the development history · encouraging young talents to strive for the first": outstanding achievements of KELAIWEI technology in 2008. KELAIWEI company focuses on the research of various kinds of whisker carbon nanotubes. Professor Sun, the chief engineer, led the team to tackle key problems for several years, and finally successfully prepared whisker carbon nanotubes in 2008, which helped our country to further break the foreign blockade of whisker carbon nanotubes technology in our country. It also sets up the basic methods and product development direction of our company's technology research and development.
Carbon nanotubes have extremely high electric heating conversion efficiency and can be widely used to replace the existing water heating, steam heating carbon fiber electric heating. After being electrified, there will be frictions and collisions between countless carbon atoms, thus generating a large amount of heat, releasing heat energy in the way of far infrared radiation, and the total electric heating conversion rate is as high as over 99.8%, it is the material with the highest electrothermal conversion rate known. The range of far infrared frequency emitted mainly lies in the physiotherapy band beneficial to human body, and the market application prospect is extremely broad.
A large super wear-resistant rubber tire production company in Jiangxi province is investigating and investigating the performance of thermal conductivity whisker carbon nanotubes produced by KELAIWEI company. The purity of the thermal conductive whisker carbon nanotubes produced by our company is as high as 95.995%, and the graphitization degree is as high as over 90%. The appearance is black split, and the outer diameter is between 30 nm and 200 nm. KELAIWEI company expects more customers to come to discuss cooperation.
Ba Ji paper is also called carbon nano-tube paper because of the use of carbon nano-tube materials. The Ba Ji paper made by Henan KELAIWEI nano-Carbon Material Co., Ltd. has good conductivity, thermal conductivity, all kinds of properties such as strength and toughness are very good materials. This is because carbon nanotubes are used. Carbon nanotubes are recognized as strong mechanical properties, ultra-high conductivity, superconductivity and thermal conductivity, high-strength nanomaterials, preparation of carbon nanotube graphene oxide.
