According to the product characteristics of high graphitization degree and electrical conductivity of whisker carbon nanotubes, the company has developed the far infrared transmitting paper of whisker carbon nanotubes, which has wide application temperature range and fast heating speed, the R & D personnel of the company have mastered the manufacturing tips of far infrared heating paper through long-term technical exploration, and have professional preparation technology of far infrared heating paper, the corresponding development of heating paper can be carried out according to different application scenarios, and different heating paper products can be customized according to customer requirements.
KELAIWEI makes high-performance and stable carbon nanotubes attentively KELAIWEI paid attention to maintaining technical advantages at the beginning of its establishment, keeping close cooperation with university research institutions and expert teams our company and Professor Sun Xiaogang's team have deep cooperation, it has applied for more than 100 invention patents, nine of which have obtained national authorized invention patents and two international PCT patents only rely on technical advantages. KELAIWEI company's products have been completed from Henan, jiangxi province has moved to more than 60 countries around the world to flatten carbon crystal electric heating paintings.
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.
KELAIWEI group is looking forward to the 2020 Shenzhen International heat conduction and heat dissipation materials and equipment exhibition as scheduled in Shenzhen Convention and Exhibition Center, China. The staff of KELAIWEI company are always ready to present the new achievements of our company's annual research on high-end nanomaterials. We are looking forward to bringing products and technologies that can help you solve production problems and help you.
There is a new material-carbon nanotubes are widely used in modern manufacturing industry. The strength of carbon nanotubes can reach 100 times of that of steel, and its strong thermal conductivity and conductivity can be equivalent to that of diamond and copper. Henan KELAIWEI Nano Carbon Materials Co., Ltd. learned that a large multinational enterprise in South Korea recently invested more than 300 million yuan to expand the capacity of carbon nanotubes, in the future, the competition in the carbon nanotube industry is bound to have a "growing momentum".
Brief introduction of flatness carbon crystal electric heating painting, graphite conductive agent and carbon nanotube (CNT) conductive agent. The application of graphite conductive agent in lithium batteries can obviously improve the conductivity of lithium ions and electrons. CNT conductive agents are often used to make high-end 3C digital batteries. Almost half of high-end digital batteries can see the shadow of CNT conductive agent. The use of conductive agent is very important for lithium battery manufacturing. Conductive agent can ensure that the battery electrode can maintain a good charging and discharging performance state continuously.
After graphite treatment, the atomic arrangement in the material is more regular, and the thermal stability of the material is better. Through thermogravity analysis, it is concluded that the material below 800℃ has very good thermal stability, the thermoweightlessness rate is below 5%. Common carbon nanotubes have many defects in the growth process, at the same time, the crystallization degree is low, and the thermal stability of the materials is poor, generally, obvious oxidation will appear below 500℃, thermal weight loss rate is generally above 20%, and antioxidant capacity is poor.
