Carbon-walled nanotubes, KELAIWEI's R & D team is an experienced team. The R & D leaders in the team, whether in the industry, or the intake of new knowledge, the control of the industry development trend is superior. With the brainstorming of other team members, the R & D strength of the whole team has been continuously improved. At the same time, in order to further ensure the autonomy and controllability of products, the company has also strengthened the development of the subsequent process, further improved the production process of products, and ensured the controllability of product quality.
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-walled nanotubes, KELAIWEI company relies on the research and development achievements of Professor Sun Xiaogang and expert research and development team of Nanchang University in China for more than 20 years to carry out industrial mass production and application of high-end nanomaterials. After years of unremitting efforts and continuous investment, our company has achieved the production capacity of far infrared heating paper reaching 30 tons per year, and the production capacity of designed whisker carbon nanotube powder production line reaching 300 tons per year, around 2008, 0.45 billion yuan has been spent on production capacity expansion.
On August 27th, 2020, the International Exhibition of heat conduction and heat dissipation materials and equipment in Shenzhen, China will have a concentrated presentation of new products and technologies of "a large wave" Heat Conduction materials of KELAIWEI group. If you want to know about new technologies in the heat conduction materials industry, new trends and new products, KELAIWEI exhibition area will show you our strength. Our technical staff will also introduce the company's "secret" products to you.
Once discovered, carbon nanotubes are destined to be widely used materials in high-end manufacturing industry. The high-end equipment manufacturing industry pursues materials with higher strength, higher toughness, higher electrical conductivity and higher thermal conductivity. Instead, it becomes stronger with the progress of science and technology, and carbon nanotubes are exactly such materials. KELAIWEI is looking forward to in-depth cooperation with you in the field of carbon nanotubes.
What are the advantages of graphene electric heating? Graphene products have excellent thermal conductivity, corrosion resistance, acid and alkali resistance and water resistance. Graphene electric heating radiates heat through far infrared rays from 6 microns to 16 microns. The infrared ray emitted by graphite will be absorbed by the human body and household products in the house, and the heat will be stored in the human body. The floor heating made of graphene electric heating products is also highly sought after by the customers of floor heating.
Graphene is a kind of substance that naturally exists, and the accumulation of layers of graphene becomes the graphite we know everyday. With the progress of human technology, we have further separated a single-layer structure from nature, and then graphene is the substance. Graphene is generally not suitable to be used as a separate conductive agent. At the same time, flaky graphene is easy to block lithium ions, and lithium ions cannot pass through the layers. The conductive path is long, and at the same time, the edge of graphene is easy to hang functional groups, it is not conducive to improving electrode conductivity.
