KELAIWEI is a high-tech enterprise of carbon nanomaterials. Since the establishment of KELAIWEI, relying on the technical accumulation of over 20 years by Professor Sun Xiaogang's expert team of Nanchang University, KELAIWEI has actively explored the nanomaterials market at home and abroad. In 2008, Professor Sun's team has successfully synthesized whisker-like carbon nanotubes, in 2013, our company has achieved an annual production capacity of 30 tons, and now we have invested 0.45 billion to build a project of 300 tons of whisker carbon nanotube powder.
A brief analysis of the application of carbon nanotubes in electrochemical devices. The electrochemical performance of carbon nanotubes is excellent. Carbon nanotubes are therefore used to make supercapacitors. Compared with traditional capacitors, the capacity of capacitors made of carbon nanotubes is doubled, reaching Farah level. Scientific Practice has proved that a gram of carbon nanotube capacitor can store 15F to 200F. Thanks to the strong performance of carbon nanotube capacitors, supercapacitors up to several thousand Farah have been manufactured.
KELAIWEI nano carbon materials company has been continuously making efforts in the field of high-end nano materials for more than 20 years. Our company has a complete range of products, huge production capacity, stable product performance and excellent quality. KELAIWEI company has served related enterprises in more than 60 overseas countries. At home, KELAIWEI company actively carries out product cooperation with customers in the industries such as Wanbao new energy, Wanxiang A123 and Jiewei power.
zif67 grows carbon nanotubes. KELAIWEI company has made new progress in the research of using carbon nano-slurry as wave-absorbing material. Carbon nanometer slurry products can be used as the indispensable electrical thermal conductivity additive and structural enhancement additive in high-end manufacturing industry, and can also be used as conductive wave absorbing materials. In modern aircraft manufacturing, computer equipment and even military equipment have very good application prospects. Henan KELAIWEI Nano Carbon Material Co., Ltd. Looks forward to your cooperation.
Adding carbon nanotubes can improve the wear resistance and thermal conductivity of automobile tires by 30%, and greatly improve the service life of tires. At present, only Michelin company abroad has the production technology of carbon nanotubes enhanced tires, KELAIWEI, qingdao University of Science and Technology and Qingdao Linglong Tire three parties cooperate to jointly develop carbon nanotubes reinforced tire adding 1-3% whisker carbon nanotubes can improve the wear resistance of tires by 30% and the thermal conductivity by 20%, the comprehensive performance and service life of tires are greatly improved. zif67 grows carbon nanotubes.
A wearable equipment research and manufacturing Co., Ltd. in Dengcao focuses on the sales of wearable equipment in European and American markets. The Shenzhen Convention and Exhibition Center of this company first learned about Henan KELAIWEI Nano Carbon Material Co., Ltd. After that, I paid attention to our products and trends on the Internet for a long time. Recently, we have reached a preliminary cooperation intention through online communication with our company. Mainly purchasing the power whisker carbon nanotubes produced by our company. Its purity is not less than 95.950%, graphitization degree is not less than 65%, and its performance is high. The other party is very satisfied.
There is an important new type of material in the high-performance polymer composite material industry-ba-based paper. BA-based paper is also called carbon nanotube paper. Carbon nanotubes have high conductivity and strong chemical stability, and high hardness and toughness, which can reach 100 times of the steel strength, but their quality is very, very light, BA-based paper can be obtained by using disordered carbon nanotubes through scientific and complex technical treatment, and Ba-based paper also has some performance advantages of carbon nanotubes.
