KELAIWEI company insists on mastering the core technology of high-end nanomaterials. High-end nanomaterials have broad market application prospects and are also essential materials for the development of national high-end manufacturing industry. With the dream of serving the motherland and enhancing the competitiveness of China's manufacturing industry, Professor Sun of Nanchang University led the team to break the foreign monopoly and applied for more than 60 patents, two monographs and 9 national invention patents, there are two international PCT patents. Our company will continue to make efforts to research and manufacture high-end nanomaterials to win honor for our country.
What is special about the catalytic thermal decomposition of Carbon Nanotubes? Since carbon nanotube materials were discovered in the laboratory by Japanese physicists in 1991, world physicists have exhausted what they have learned and synthesized carbon nanotubes in various ways. Catalytic thermal decomposition method adopts carbon organic matter to react through high temperature environment of 400-600 degrees and high temperature environment of 700-1000 degrees. Carbon materials are mixed with solvent water, catalyst and materials, and then filtered and dried after stirring and dipping. After catalytic reaction, after washing and ultrasonic shock, carbon nanotubes are finally produced.
The growth mechanism of carbon nanotubes, KELAIWEI nano carbon material company insists on creating superior technological innovation environment for employees, providing rich technology research and development fund rewards, our company has a set of mature innovation process mechanism, the company's technological innovation achievements have sprung up one after another and has applied for more than 60 technical patents. On the road of continuous pursuit of independent technology research and development, our company bases on domestic and foreign needs, dares to break foreign technology monopoly and make contributions to national technological innovation.
The growth mechanism of carbon nanotubes, the third of the series of "reviewing the development history · encouraging young talents to strive for the first place" by KELAIWEI company: Events of 2011. Professor Sun, the technical hero of KELAIWEI nano-carbon materials company, founded the technology technology and equipment of whisker carbon nanotubes mass production. Since then, it has been thoroughly put into production and can provide customers with 10 tons of high-quality whisker carbon nanotubes every year. After that, Professor Sun has led the team to continue research and development, and promoted the continuous progress of KELAIWEI whisker carbon nanotubes technology.
Using the high electrical conductivity of whisker carbon nanotubes as carbon-series filling conductive plastics, due to the advantages of high cost performance and adjustable resistance, the electrical conductivity can be achieved with very few addition amount, and the specific surface area is smaller, it is easier to disperse in the composite material, and the processing performance of the material will not be greatly affected. At present, industrial production has been formed with P company. The processing performance of the product is good, and the electrical conductivity and tensile strength of the material are improved, generally, the additive amount is 3~5%wt for adjustment.
A manufacturer of household appliances in Nanjing, Jiangsu province made a lot of profits by selling small household appliances such as water heaters, household electric lunch boxes, electric kettles, etc. However, with the entry of major manufacturers and the participation of many high-profile enterprises, it has made it feel the pressure of competition. The far infrared paper provided by Henan KELAIWEI Nano Carbon Material Co., Ltd. has good performance and low price, and saves 15% of the performance of its products.
Henan KELAIWEI Nano Carbon Material Co., Ltd has confirmed that CNT transparent conductive film made of carbon nanotubes can be mass produced due to its low price, excellent performance, excellent commercial value and product application value are widely used in making various types of touch screens, high-end liquid crystal displays, excellent organic photovoltaic cells, high-end organic light emitting diodes and other products.
