Henan KELAIWEI Nano Carbon Material Co., Ltd. has been insisting on technology since its establishment. After more than 20 years of technological development, our company has become a high-end manufacturing technology enterprise in the carbon nanotube material industry. With the continuous increase of the market demand for carbon nanotube materials, in order to meet the market demand, the supply of high-quality KELAIWEI nanomaterials products, KELAIWEI company has invested in the construction of the whisker carbon nanotube powder project whose output value reaches 300 tons per year.
How to choose the doping mechanism of carbon nanotubes and the application of carbon fiber heating tube in industrial tunnel furnace? The traditional stainless steel electric heating tube is often burned off and its use efficiency is low, which is no longer suitable for the efficient application of industrial tunnel furnace. Carbon fiber heating tube can perfectly replace stainless steel heating tube. The carbon fiber heating pipe has high efficiency and can shorten the length of one tenth to 1/5 of the traditional heating furnace, which only needs 50% to 70% of the traditional installed power. It can be said to be twice the result with half the effort.
High-end nanomaterials are capital industries even in technology industries. Henan KELAIWEI Nano Carbon Material Co., Ltd. initially invested 0.45 billion yuan in the research and development and production of high-end nano materials. Ten production lines were set up in Jiangxi province, with each production line reaching 30 tons. Later, a factory area of 13,000 square meters was invested in Henan province, and an annual production line of 300 tons was set up. KELAIWEI will continue to increase investment.
The R & D center of KELAIWEI company added new strength, and KELAIWEI Nano Carbon Material Co., Ltd. established deep cooperation with relevant industry experts of Zhengzhou University of light industry. KELAIWEI company hired Professor Wang Lizhen as our technical consultant. KELAIWEI company firmly believes that with the cooperation of Professor Wang, the R & D strength of KELAIWEI company will be strengthened. KELAIWEI company always pays attention to technical cooperation and communication with professionals at home and abroad.
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, so the cycle characteristics of the battery can be improved. Moreover, due to the addition of whisker carbon nanotubes, the charging and discharging depth of lead-acid battery can be appropriately improved, and the energy improvement can be improved. KELAIWEI and Y Company have conducted in-depth cooperation in the field of lead-acid.
A power battery production and research institution in Guangdong province is seeking to purchase a batch of power whisker carbon nanotubes for its new generation of power battery development. The other side made a high request. For example, high requirements are required for purity, transportation and storage, stability, supply, etc. Our products fully meet the needs of the other party. Henan KELAIWEI Nano Carbon Material Co., Ltd. Has studied whisker carbon nanotubes for more than 20 years. It has completely independent intellectual property rights and can process whisker carbon nanotubes with purity over 95%. Its shelf life is 6 months and its performance is stable.
Henan KELAIWEI Nano Carbon Material Co., Ltd. Has the patented technology of the production process and equipment manufacturing of whisker carbon nanotubes the structure characteristics of whisker carbon nanotubes are very good, with very high aspect ratio and Conductive characteristics, as an additive of electrode materials, it can be used to successfully build a highly complete electronic conduction network, thus it can be combined with electrode materials to produce high-performance composite electrode materials and the doping mechanism of carbon nanotubes.
