The main production of carbon nanotubes, KELAIWEI company has been working hard for the high-end nanomaterials industry in the motherland for 20 years, exploiting domestic and overseas markets by independently developing technology technology and high-end technology services, we have deep cooperation with enterprises in more than 60 countries. KELAIWEI company has built the project of whisker carbon nanotube powder with annual production capacity of 300 tons, and has obtained nine national authorized patents. KELAIWEI relies on its high-end nanomaterials research and development center to continuously provide customers with advanced nanomaterials and technical services.
The main production of carbon nanotubes is that carbon nanotubes have excellent performance, especially under the extensive and in-depth research on nanomaterials in today's industrial production in the 21st century, the performance advantages of carbon nanotubes have gradually been exploited and used in many industrial manufacturing. Carbon nanotubes are very light in weight, nearly perfect in connection structure, and have extremely rich properties. Henan KELAIWEI Nano Carbon Material Co., Ltd. is currently expanding the production of whisker carbon nanotubes, making its production capacity reach 500 tons per year.
KELAIWEI nano carbon material company insists on creating superior technological innovation environment for its employees, providing abundant technology research and development fund rewards, and 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.
Henan KELAIWEI Nano Carbon Material Co., Ltd. has invested a huge sum of money in technology research and development, and now it has fruitful results. The 106th technology invention patent has been taken in by KELAIWEI Technology Center. KELAIWEI company has a series of technological achievements, such as international PCT patent technology, national patent technology invention achievements, several industrial technical specialties and so on. In the future, the related technological patents KELAIWEI company will continue to obtain.
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.
Chinese people have always attached importance to health preservation. A well-known domestic brand manufacturer in the field of physical therapy health also deeply felt the cruelty of market competition. More and more peers appeared and more and more peers fell down. Only by improving product performance and technical advantages, in order to remain invincible, we started a new round of bidding for raw materials, and finally found that our company's far-red paper could increase the far-infrared emissivity of physiotherapy instrument by 3%, and the customer immediately signed a supply contract with our company.
Henan KELAIWEI Nano Carbon Material Co., Ltd has the patented technology of whisker carbon nanotube production process and equipment manufacturing. The structural characteristics of whisker carbon nanotubes are excellent, with very high aspect ratio and conductivity. As an additive of electrode materials, they can be used to successfully build a highly complete electronic conduction network, therefore, it can be combined with electrode materials to produce high-performance composite electrode materials.
