At present, there are four companies in the world that can carry out mass production of whisker carbon nanotubes, which are Japan SHOWA SENKO, Taiwan rijiang, US Applied Sciences and our company respectively. Among them, Japan has the largest production of SHOWA SENKO, up to about 500 tons. The technology and equipment of whisker carbon nanotubes developed by our company are at the same level as SHOWA SENKO. Only KELAIWEI company can produce mass production in China, and its technology belongs to international advanced, which is the mainstay in China.
Since its establishment, KELAIWEI nano carbon materials have relied on advanced technology to "stand up" and open the future with World Science and Technology. Cleway company is professional, focusing on the research and manufacture of high-end carbon nanomaterials the expert team led by Professor Sun Xiaogang of Nanchang University is committed to becoming the leader of high-end carbon nanomaterials industry. Our products have applied for hundreds of patents, it has been recognized by enterprises in more than 60 countries around the world. Clayey will continue to invest in technology to promote product research and development and provide you with high-end carbon nanomaterials, carbon crystal door panels and acrylic panels.
Carbon crystal door plate and acrylic plate, ultra-high purity whisker carbon nanotube powder products, high-end far infrared heating paper products, A series of carbon-based nanomaterials, such as technology-innovative carbon-based composite derivative products and high-end whisker carbon nanotube conductive paste, have completely independent intellectual property rights, henan KELAIWEI Nano Carbon Material Co., Ltd. supports technological innovation to meet the needs of high-end nano material customers.
The planning department of KELAIWEI company organizes employees to review the company's business philosophy, maintain the company's image, serve the company's customers and create high-quality products. KELAIWEI company adheres to the quality concept that product quality is the life of the enterprise; Adheres to the innovative idea of learning from others and striving to be advanced in the industry; Adheres to the development concept of keeping steady and going far away and thinking of danger in peace; Adheres to the working concept of keeping improving. This interaction was jointly organized by the planning department of KELAIWEI Jiangxi company and the Planning Department of Henan KELAIWEI company.
For lithium battery manufacturing enterprises, conductive agent products are very important. Henan KELAIWEI Nano Carbon Material Co., Ltd. observed that at present, the traditional conductive agent products are mostly conductive carbon black or nano carbon fiber, etc. In recent years, a new material has emerged: carbon nanotubes. Compared with the traditional conductive carbon black, its conductivity is improved by more than 10%. KELAIWEI company is committed to the research of carbon nanomaterials and looks forward to cooperating with you.
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.
Far infrared transmitting paper provides an efficient heating solution, which is not limited by traditional materials. Traditional materials require the components to be heated to a very high temperature so as to effectively transfer heat within a certain distance. The far infrared produced by the far infrared emission paper directly heats people within a certain range, instead of the space or room, and the heating is comfortable and efficient. The far infrared transmitting paper is heated instantly, and it is not hot itself. When the power is off, the heating paper can reach normal temperature for a short time, which is safer and more reliable.
