KELAIWEI company firmly believes that technology is important, product quality is important, and after-sales service is also important. KELAIWEI insists on making after-sales service into excellent service of the company and taking care of the company's brand image. Product delivery is only the beginning of cooperation. What you get is not only the nanomaterials of KELAIWEI company, but also the after-sales support of the powerful technical team of KELAIWEI company. We will provide you with detailed product technology introduction, and we will continue to provide you with technical support services.
Why are graphene electric floor heaters made of graphene electric heating film materials so popular with market customers? Graphene electrothermal film is a new high-tech material with stable performance. The electric floor heating made of graphene electric heating film has a long service life, up to 50 years. Secondly, the electric floor heating made of graphene electric heating film is more energy-saving, and more than 99% of the electric energy can be converted into heat energy. Finally, the electric floor heating made of graphene electric heating film is easy to maintain and the price is low.
Henan KELAIWEI Nano Carbon Material Co., Ltd. is located in Henan province, which is jointly founded by Jiangxi KELAIWEI company and Dengcao group. Our factory covers an area of 12000 square meters and has established ten production lines. With the best-selling products of our company, we have launched two new production lines of whisker carbon nanotubes, with an annual output value of 0.5 billion yuan. KELAIWEI's products are sold to more than 60 countries around the world.
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 explanation of carbon nanotubes also makes full use of the performance advantages of carbon nanotubes in the application of heat dissipation coatings. Heat dissipation coatings have different heat dissipation principles, but they basically improve the heat dissipation efficiency by improving the radiation efficiency of the object surface. Using heat-dissipating coatings on the surface of objects can accelerate the heat dissipation efficiency. Carbon nanotubes have the characteristics of high radiation capacity and good mechanical properties. By adding carbon nano tubes into the coating, the heat dissipation efficiency can be improved by 20% on the basis of the original heat dissipation of objects.
The explanation of carbon nanotubes, a wearable equipment research and manufacturing Co., Ltd. in Hong Kong once learned from Shanghai convention and exhibition center that the purity of the power whisker carbon nanotubes produced by Henan KELAIWEI Nano Carbon Material Co., Ltd. is over 95.950%, the graphitization degree is more than 65%, and the thermal conductivity of a single root is not less than 1200W/m.k, the aperture is between 1 nm and 5 nm, and has recently reached a supply contract with our company. Henan KELAIWEI company not only wins the cooperation of customers with high-quality products, but also makes you feel more comfortable to buy with high-quality services.
Recently, a large number of customers are using carbon nano-tube paper produced by Henan KELAIWEI nano-Carbon Material Co., Ltd. Carbon nano-tube paper is one of the products obtained by KELAIWEI company after more than 20 years of research on carbon nano-tube technology. Carbon nano-tube paper can be used to make cooling pad in high-power electronic components, can be used as positive and negative electrode material additive of high-end battery, and can be used as gas diffusion layer of battery.
