Since its establishment, KELAIWEI company has been committed to the research and development, processing, manufacturing and sales of carbon nanomaterials technology and preparation equipment. The R & D engineers, management personnel and sales personnel of KELAIWEI company come from university research institutions and large enterprises. KELAIWEI company's cooperative customers spread all over over 60 countries and regions such as Europe, America, Asia and Africa. KELAIWEI motivates himself to become the R & D and manufacturing expert of advanced carbon nanomaterials at home and abroad.
Carbon fiber heating cable is definitely not graphene heating cable! The graphene electric heating film can only be obtained through deep processing of high-quality metal current-carrying strips and graphene conductive ink with good conductivity, and then through complex processing and manufacturing between insulating polyester films. Graphene electric heating film is really used as heating material in the market. Carbon fiber heating cables are made up of a large number of conductive carbon fiber wires. Carbon fiber heating cables are not graphene heating cables, so be careful not to be "fooled" by bad merchants "!
KELAIWEI nano carbon material company draws backbone forces from technical experts team, production workshop center, after-sales maintenance center and other departments to form the after-sales center of products, in order to quickly respond to the needs of cooperative customers our company not only has a strict quality control system to ensure the quality and quality of factory products, but also has an efficient logistics system and after-sales service system, so that customers can receive goods without worry, after-sales worry-free, cost of bio-carbon nanotubes.
KELAIWEI company's second series of "reviewing the development history · encouraging young talents to strive for the first": outstanding achievements of KELAIWEI technology in 2008. KELAIWEI company focuses on the research of various kinds of whisker carbon nanotubes. Professor Sun, the chief engineer, led the team to tackle key problems for several years, and finally successfully prepared whisker carbon nanotubes in 2008, which helped our country to further break the foreign blockade of whisker carbon nanotubes technology in our country. It also sets up the basic methods and product development direction of our company's technology research and development.
The cost of biological carbon nanotubes is the far infrared transmitting paper made of whisker carbon nanotubes and high-temperature fiber. The far infrared transmitting paper can heat objects by emitting far infrared waves under electrification, in the field of portable heating, it can be applied to the field tourism charging treasure food heating, sleeping bag heating, 12V power supply boiling water for cars and food heating. It can be completed by using simple charging treasure, which is very convenient to use, at present, it has carried out food heating cooperation with H Company, and its products are applied to heating lunch boxes.
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).
The transparent conductive film made of carbon nanotubes has ultra-high conductivity and ultra-high transparency in the visible light range, so it is highly sought after by manufacturers. Carbon nanotubes not only have excellent strength (100 times the strength of steel), but also have high stability and conductivity, and also have very good thermal conductivity. Because it is widely used in the production of Transparent Conductive Films.
