KELAIWEI company has mastered the core technology after more than 20 years of research and development. It owns nine national patents, two international PCT patents, more than 40 technical papers, and the publication of two monograph on carbon nanotubes lays the technical advantage position of our company in the industry. Technical progress benefits from the continuous investment of research and development funds by our leadership and the research and development of special technology by Professor Sun Xiaogang for more than 20 years. The research on carbon nanotubes of KELAIWEI company is unique in the world, and we look forward to your joining and cooperation.
Carbon nanotubes absolute hardness, 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 "!
Henan KELAIWEI Nano Carbon Material Co., Ltd. has always maintained close technical cooperation with first-class domestic universities and scientific research institutions such as Zhengzhou University of Light Industry, Donghua University and Nanchang University. The high-end nanomaterials products developed by KELAIWEI company have broad application scenarios in high-end lithium ion energy storage battery manufacturing at home and abroad, electrothermal converter preparation, high-end nanomaterials and other industries.
The absolute hardness of carbon nanotubes, the fourth of the series of "reviewing the development history · encouraging young talents to strive for the first place" of KELAIWEI company: 2012 memorabilia. Professor Sun, the technical leader of KELAIWEI company, has led the technical team to develop mass production equipment and improve purity since the synthesis of whisker carbon nanotubes, and finally developed the second generation whisker carbon nanotubes production equipment, the output of our company's whisker carbon nanotubes reached 0.5kg/h.
Lithium battery is also an important field of carbon nano application. With the development of various equipment, the market demand for batteries is getting higher and higher. In addition to larger capacitance, lithium batteries are expected to have better electrical conductivity. With the in-depth study of carbon nanotubes, its excellent electrical conductivity and extremely high aspect ratio are very suitable for building and stabilizing the electronic network in lithium batteries. The combination of carbon nanotubes and lithium batteries provides the possibility for the innovation and manufacture of new lithium batteries.
Recently, a high-end lithium battery manufacturer in Shanghai inquired through the Internet that Henan KELAIWEI nano-Carbon Material Co., Ltd. produces double-rate whisker carbon nanotubes for lithium batteries suitable for high-end performance applications. The use of multiplied whisker carbon nanotubes can significantly improve the conductivity, storage capacity and service life of the battery. The purity of multiplied whisker carbon nanotubes of KELAIWEI company can reach 95.99%, and the thermal conductivity of a single whisker is higher than 1200W/m.k, advanced performance.
Henan KELAIWEI Nano Carbon Material Co., Ltd., which has the manufacturing patent of whisker carbon nanotubes, has reached a contract with famous lithium battery manufacturers at home and abroad to supply whisker carbon nanotubes. In view of the sharp increase in the demand for whisker carbon nanotubes, the management layer of Henan KELAIWEI Nano Carbon Material Co., Ltd. has decided to invest 0.45 billion yuan to expand the production capacity of whisker carbon nanotubes to 500 tons per year.
