KELAIWEI specializes in the preparation technology of nanomaterials for more than 20 years. In the past 20 years, Professor Sun Xiaogang's technical research and development team of Nanchang University has continuously output technical achievements. Now KELAIWEI company has helped enterprises in more than 60 countries around the world to solve the required nanomaterials products. The manufacturing equipment and technology of whisker carbon nanotubes researched and developed by our company by ourselves have the dominant advantage of technology at home and abroad. Our company has applied for 106 patents including 9 national authorized invention patents and 2 international PCT patents.
The floor heating made of carbon fiber cable should be on guard! Carbon fiber cable floor heating is also called carbon crystal floor heating promotes the irregular movement of carbon atoms through voltage difference, and the irregular movement between carbon atoms generates friction, which generates heat, in order to achieve heating but using carbon fiber heating cable to make floor heating, there is no unified national regulatory standard in the industry at present, at the same time, the carbon fiber heating cable will seriously affect the heating effect after some poor contact conditions occur at the joint port, so it is necessary to carefully choose this kind of electric heating products, the largest enterprise of carbon nanotubes.
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 11th of the series of "reviewing the development history · encouraging young talents to strive for the first" of KELAIWEI company: achievements of cooperation and exchange. Henan KELAIWEI Nano Carbon Material Co., Ltd attaches great importance to carrying out technical cooperation and exchanges with industry experts and industry institutions. At present, our company has carried out close cooperation with China Nanchang University, Zhengzhou University of Light Industry, Shaanxi University of Science and Technology, Donghua University, China chemical and physical power Industry Association, etc.
The largest enterprise of carbon nanotubes, traditional heating products (metal resistance wire, ceramic heating element, carbon fiber, graphite, PTC) have low efficiency and high operation cost, and need a lot of time to achieve ideal comfort. This is because they are heated by convection, which is used to heat the surrounding air. The far infrared emission paper directly uses the far infrared energy to radiate and heat the object, and transfers heat faster. When the power density of 0.8W/cm2 is loaded, the surface of the paper can be heated to 200℃ instantly, and the object can be heated quickly and effectively.
An automobile manufacturer in the North developed a matching electric steering wheel for its new model, which needs far infrared paper products. The far infrared paper produced by KELAIWEI company has strong flexibility, strong acid and alkali resistance, and strong water resistance, more importantly, the electrothermal conversion efficiency of far infrared paper produced by KELAIWEI company is as high as over 99.95%. The customers are very satisfied and have established a long-term cooperative relationship with our company.
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.
