Since its establishment, KELAIWEI nano carbon materials have been "standing" with the world relying on advanced technology. Science and technology opens the future. Clevere company is professional and focuses 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 and have been recognized by enterprises in more than 60 countries around the world. KELAIWEI will continue to invest in technology to promote product research and development and provide you with high-end carbon nanomaterials.
How to choose carbon fiber heating pipe for 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.
KELAIWEI company invested 0.45 billion yuan to build a production workshop of 13,000 square meters in the industrial park of Dengfeng city, Henan province. This expansion project will plan several production lines, and strive to expand the production capacity of the whisker carbon nanotube powder project to an annual output of 500 tons, in order to meet the sudden increase of clients' demand our company insists on the "6s" lean management method to recommend all kinds of work efficiently, to ensure that the products are delivered to clients on time and with high quality, and the preparation of nitrogen-doping carbon nanotubes.
Whisker carbon nanotubes have always been a difficult problem in production: impurities. The higher the purity of whisker carbon nanotubes, the more advanced it is. At present, there is no whisker carbon nanotubes with 100% purity. At present, the whisker carbon nanotubes produced in the market all contain certain metal impurities. However, KELAIWEI company has been able to control the content of metal impurities in whisker carbon nanotubes within 50ppm.
Lithium-ion batteries used in new energy electric vehicles usually have low discharge capacity and slow charging speed at low temperature, which is not conducive to the use of lithium-ion batteries in low temperature areas. The Battery bag heating sleeve made of far infrared heating paper is used, the lithium ion battery can be heated instantaneously, and the lithium ion low-temperature battery can be self-heated from-40℃ to 100℃. At present, the company has established contact with Ningde times, BYD and other companies, the product has been tested and the test results are good.
A manufacturer of far infrared electric heating room in Henan has recently developed a new product. In order to reduce the use of heat conduction materials in order to save space, adding other parts, it is urgent to use far infrared paper to replace some materials, however, the company has strict requirements on the working temperature of the far infrared paper, requiring that the far infrared paper still has super stability within 120 degrees, and the suppliers in the provinces nearby the company are not suitable, finally, we chose our products (the working temperature is less than 300 degrees).
Henan KELAIWEI Nano Carbon Material Co., Ltd. has formed a new material-carbon nano-tube paper by using a series of disordered carbon nano-tube materials with a certain length, also known as Ba-based paper carbon nano-tube 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 nano-tube, preparation of nitrogen-doping carbon nanotubes.
