From the very beginning of its establishment, Henan KELAIWEI nano-Carbon Material Co., Ltd has formulated the enterprise vision of "becoming a global high-quality research and development manufacturer of carbon nano-carbon materials", and taking this as an incentive, the research and development personnel overcome difficulties, continue to strive. KELAIWEI company combines the corporate vision with the personal career development of the staff of KELAIWEI company, and works together to make the company bigger and stronger and provide high-end products for customers.
Graphite conductive agents and carbon nanotubes (CNT) brief introduction of conductive agent graphite conductive agent applied to lithium battery can obviously improve the conductivity of lithium ion and electronics CNT conductive agent is often used to make high-end 3C digital batteries almost half of the 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 the battery electrode to maintain good charge and discharge performance state continuously, which is a kind of carbon nanotube hydrogen secondary battery.
Advanced technology, high-quality products and other advantageous resources in the industry can be combined with efficient enterprise management to produce high-quality products. At the beginning of the establishment of clevey nano carbon material company, an efficient management system was established through "lean management law. The production of products is managed "strictly" according to the standards that exceed ISO9001 and IATF16949 quality management system rules, so as to ensure that the quality of the products obtained by customers is superior and they can be used safely.
The R & D center of KELAIWEI company added new strength, and KELAIWEI Nano Carbon Material Co., Ltd. established deep cooperation with relevant industry experts of Zhengzhou University of light industry. KELAIWEI company hired Professor Wang Lizhen as our technical consultant. KELAIWEI company firmly believes that with the cooperation of Professor Wang, the R & D strength of KELAIWEI company will be strengthened. KELAIWEI company always pays attention to technical cooperation and communication with professionals at home and abroad.
A kind of carbon nanotube hydrogen secondary battery, carbon nanotube electric heating conversion efficiency is extremely high, can be widely used to replace the existing water heating, steam heating carbon fiber electric heating. After being electrified, there will be frictions and collisions between countless carbon atoms, thus generating a large amount of heat, releasing heat energy in the way of far infrared radiation, and the total electric heating conversion rate is as high as over 99.8%, it is the material with the highest electrothermal conversion rate known. The range of far infrared frequency emitted mainly lies in the physiotherapy band beneficial to human body, and the market application prospect is extremely broad.
The far infrared emission band of the paper produced by our company ranges from 2 nanometers to 20 nanometers, and the electrothermal conversion rate is as high as over 99.5%, which has obvious application effect in the field of thermal products. After our company provided samples for a honeycomb heat exchanger manufacturer in Beijing, the performance of the honeycomb heat exchanger was significantly improved, and the energy-saving effect was obvious after the trial of customers, especially the test of the product quality control department, which could save more than 25% of energy compared with the previous one.
BA-based paper is also called carbon nano-tube paper because of the use of carbon nano-tube materials. The BA-based paper made by Henan KELAIWEI Nano Carbon Material Co., Ltd. has very good properties in terms of conductivity, thermal conductivity, strength and toughness. This is because carbon nanotubes are used. Carbon nanotubes are recognized as nanomaterials with strong mechanical properties, ultra-high conductivity, superconductivity and high strength.
