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.
What are the manufacturing methods of carbon nanotubes? Since the discovery of carbon nanotubes, the research on carbon nanotubes has never stopped. Carbon nanotubes have complex and excellent properties, which are both conductive and conductive, very thin but very hard, compared with a hundred times of steel hardness, carbon nanotubes are widely used, so various preparation methods have also been invented. Common production methods include arc method, catalytic thermal decomposition method, hydrothermal method and chemical vapor deposition, etc. Carbon nanotubes vanadium pentoxide.
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 capacity of the first and second phase projects is 150 tons/year. The company mainly researches and develops whisker nanometer synthesis process and equipment, carbon nanometer powder, carbon nanometer paste, mixed paste and other products.
KELAIWEI company "reviewing the development history · encouraging young talents to strive for the first" Series II: outstanding achievements of KELAIWEI technology in 2008 KELAIWEI company focuses on the research of various kinds of whiskers carbon nanotubes chief engineer Professor Sun led the team to tackle the problem for several years, finally, the whisker carbon nanotubes were successfully prepared in 2008, which is helpful for our country to further break the foreign blockade of our whisker carbon nanotubes technology, and even set up the basic methods and product development direction of our company's technology research and development, carbon nanotubes vanadium pentoxide.
Starting power supply for automobiles and motorcycles is a kind of ultra-high rate battery. When starting a car, it needs to output ultra-large current, and at the same time, it must ensure ultra-long cycle. After using whisker carbon nanotubes, due to its length advantage, under the condition of ultra-high guaranteed magnification, after the positive and negative electrode materials of lithium ion expand, the whisker carbon nanotubes can still maintain the conductive network, and the cycle performance is well guaranteed, KELAIWEI has cooperated with W company on the starting power supply, and the product performance is equivalent to that of Japan's Showa electrical products.
Far infrared electric floor heating products are highly sought after by customers in the market. A thermal product manufacturing business in Nanjing quickly launched the production line of far infrared electric floor heating. When looking for the long-term supplier of preparation materials, through the comparison of its product center, it is found that the far infrared paper performance of KELAIWEI company is very excellent, which is 5% higher than the expected product performance of the company, therefore, the customer had to modify the product introduction manual.
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.
