Since its establishment, our company has been focusing on developing into a leader in the high-end carbon nanomaterials industry and devoting itself to the research on advanced technologies of carbon nanomaterials. As of May 2020, our company has applied for 60 invention patents, published more than 40 professional papers in the industry, published two monograph on carbon nanotubes, obtained 9 national authorized invention patents, it has obtained 2 international PCT patents and successfully walked out of the research and development path of a technology company combining production, teaching and research, breaking the foreign monopoly and selling its products all over the world.
How is carbon nanotubes made by chemical vapor deposition? Carbon nanotube materials are widely used and have strong properties, but their production is very low and the manufacturing process is complex. Therefore, scientists have continuously improved the manufacturing methods. Chemical vapor deposition method is used to produce carbon nanotubes, and its production efficiency is still relatively high. By chemical vapor deposition, carbon-containing gases are cracked by catalysts to obtain carbon nanotubes.
KELAIWEI nano carbon material company has established Henan KELAIWEI Nano Carbon Material Co., Ltd. and Jiangxi KELAIWEI Nano Carbon Material Co., Ltd. KELAIWEI company continues to develop, expand investment and expand the scale of production and operation. KELAIWEI company invested 0.45 billion yuan to invest 13,000 square meters of factory area in Henan, and maintained deep cooperation with experts at home and abroad. Our company attaches great importance to the research and development and innovation of advanced technologies of nanomaterials.
Carbon-based nanomaterials are an important business of KELAIWEI company. KELAIWEI Nano Carbon Material Co., Ltd. Established the production base of Dengfeng city in Henan province and the production research and development base of KELAIWEI in Jiangxi province to provide high quality whisker carbon nanotube powder for major customers at home and abroad, A series of high-end and high-quality carbon-based nanomaterials, such as whisker carbon nanotube conductive paste of various specifications. The research on carbon-based nanomaterials technology KELAIWEI company will continuously add investment.
The utilization rate of active materials in lead-acid battery is low, the energy density is small, and the circulation performance is poor. Adding carbon whisker nanotubes to the negative pole of lead-acid battery can greatly improve the conductivity of the polar plate, the consistency of lead-acid battery can be improved well. Because it is a linear conductive agent, it can still maintain the conductive network in a long cycle. Therefore, the cycle characteristics of the battery can be improved and due to the addition of whisker carbon nanotubes, it can moderately improve the charging and discharging depth of lead-acid battery and improve the energy. KELAIWEI has conducted deep cooperation with Y Company in the field of lead-acid, which is carbon nanotubes Beijing company.
Jiangxi xxx hard alloy Manufacturing Co., Ltd. Has a history of producing hard alloy with high strength and toughness for nearly ten years. Recently, we are looking for cooperation with our company on carbon nanotube materials. Carbon nanotubes have extremely strong toughness and strength (its strength can be 100 times as much as steel), it also has high resistance to corrosion, acid and alkali, water and water. Using the hard alloy of carbon nanotubes, it has more outstanding performance in the aspects of hardness, toughness, anti-wear and anti-strike, and anti-corrosion.
Henan KELAIWEI nano-Carbon Material Co., Ltd. has formed a new material-carbon nano-tube paper, also known as Ba-based paper, by using a series of disordered carbon nano-tube 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.
