In more than 20 years of technical research, all the technicians of KELAIWEI insist on devoting all their scientific research time to make domestic nano carbon material products well. KELAIWEI insists on processing and manufacturing products for customers with self-developed advanced equipment and preparation technology, and prevents any bad products from getting off the production line. KELAIWEI has almost strict inspection system and process operation process for the production workshop, the products produced by KELAIWEI must be boutique.
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.
KELAIWEI company relies on the research and development achievements of the expert research and development team of Professor Sun Xiaogang of Nanchang University in China for more than 20 years to develop the industrial and mass production application of high-end nanomaterials. After years of unremitting efforts and continuous investment, the production capacity of far infrared heating paper has reached 30 tons per year, and the production capacity of designed whisker carbon nanotube powder production line has reached 300 tons per year. Around 2008, 0.45 billion yuan has been spent to expand the production capacity, surface effects of carbon nanotubes.
The surface effect of carbon nanotubes has made a major breakthrough in the manufacturing technology of process equipment of Henan KELAIWEI Nano Carbon Material Co., Ltd. KELAIWEI company is committed to the research of high purity technology and high yield equipment manufacturing of whisker carbon nanotubes. With the joint efforts of the technology center and equipment manufacturing center of KELAIWEI company, the production capacity of a single set of whisker carbon nanotubes manufactured by our company has reached 30 tons per year. Our company has decided to make additional investment and has already expanded the research results.
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.
In the rubber mixing production process after using nano formula, it can effectively avoid the damage of rubber polymer chain, thus it can be better than the traditional rubber processing process, it can realize more perfect fusion of rubber juice in liquid state. A car rubber tire factory in Henan accepted the new technology application method of carbon nanotube material of Henan KELAIWEI Nano Carbon Material Co., Ltd, which improved the product performance by 7% compared with the previous one. At present, we have reached a long-term cooperative partnership with our company.
Nanomaterials are widely used in rubber tire manufacturing, especially in rubber tire manufacturing with high wear resistance. The traditional processing technology of rubber products will destroy the rubber polymer chain, and the liquid nano formula using nano materials perfectly solves this problem, therefore, the abrasion resistance of rubber tires is far stronger than that of rubber tires without nanomaterials. Henan KELAIWEI Nano Carbon Material Co., Ltd. Has carried out research on nano materials for more than 20 years.
