Brief introduction of carbon nanotube conductive solution, "the mainstay of technology, high product performance and satisfactory service" is the business philosophy that the technicians of Henan KELAIWEI Nano Carbon Material Co., Ltd insist on implementing in the development of more than 20 years. The R & D team of KELAIWEI, led by Professor Sun Xiaogang, the top domestic nanomaterials research expert, has applied for more than 100 patents and has 9 national property rights patents. KELAIWEI pursues promoting the leapfrog development of nanomaterials with technological progress.
How were carbon nanotubes discovered? Carbon nanotubes were discovered in the laboratory in 1991 by Japanese physicist Yoshiko Hiroshima. As usual, Yoshima Yoshino, who works in the NEC laboratory of Tsukuba in Japan, was observing the carbon fiber made by the arc method by using the transmission electron microscope, and unexpectedly found "carbon nanotubes". Carbon nanotubes are a kind of "tubular" carbon molecules, whose skeleton is honeycomb-shaped structure.
The technical team of Henan KELAIWEI Nano Carbon Material Co., Ltd. is one of the early domestic enterprises specializing in the technical research and development of high-end nano materials and manufacturing of industrial mass production equipment. Since its development, the technical team of KELAIWEI company, which has gone through more than 20 years, has successively applied for 9 national patents, and 2 monographs have been published. Our products have broken some technical monopolies of foreign counterparts, and went abroad and sold it abroad.
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.
The negative electrode material of lithium ion battery needs high magnification. At present, conductive graphite is usually mixed with conductive graphite. Conductive graphite belongs to large-scale conductive agent, which is not easy to realize high conductivity in low additive amount. In the manufacturing process of graphite negative electrode, with the addition of whisker carbon nanotubes, because the crystallization of whisker carbon nanotubes is generally above 70%, it has a certain lithium-embedded capacity, which can ensure a higher use ratio under the condition that the capacity is not lost, at present, KELAIWEI is cooperating with X company in developing the negative pole with high magnification to increase the magnification and capacity of the negative pole.
A manufacturer of far-infrared electric cushion and far-infrared mouse cushion in Jiangsu, facing the price competition, is under great pressure, which can not only affect the cooperation relationship with old customers with a sharp rise in price, but also can't reduce the product performance, therefore, we can only start with materials and techniques in order to improve the profit rate of the products. After knowing the performance of our far infrared paper, we came to ask for samples. After being confirmed by its product department, it has excellent performance and low price, you can purchase in batches.
Nanomaterials have wonderful uses in the manufacture of hard alloy the performance of hard alloy products using nanomaterials is better than that of hard alloy products without nanomaterials the performance of hard alloy products using nanomaterials is stronger degree, super abrasive resistance, impact resistance, strength toughness and high corrosion resistance of steel which is far stronger than 100 times of steel Henan KELAIWEI Nano Carbon Material Co., Ltd pays attention to the manufacturing research of ultra-pure whisker carbon nanotubes, brief introduction of carbon nanotube conductive solution.
