The R & D team of KELAIWEI is an experienced team. The R & D leaders in the team are superior in terms of the knowledge in the industry, the intake of new knowledge, and the control of the development trend of the industry, with the brainstorming of other team members, the R & D strength of the whole team has been continuously improved. At the same time, in order to further ensure the autonomy and controllability of products, the company has also strengthened the development of the subsequent process, further improved the production process of products, and ensured the controllability of product quality.
"Technology is the mainstay, product performance is high, and service is satisfactory" is the business philosophy that the technical staff of Henan KELAIWEI Nano Carbon Material Co., Ltd insist on implementing in the development of more than 20 years. The R & D team of KELAIWEI, led by Professor Sun Xiaogang, the top domestic nanomaterials research expert, has applied for more than 100 patents and has 9 national property rights patents. KELAIWEI pursues promoting the leapfrog development of nanomaterials with technological progress.
Henan KELAIWEI Nano Carbon Material Co., Ltd. is one of the well-known enterprises in the high-end nano materials industry KELAIWEI owns 2 international PCT patents, 9 national patents, more than 40 industry papers, two monograph on carbon nanotube industry...... In the field of high-end nanomaterials, the leader of KELAIWEI company made a decision to continuously invest heavily in research and development. Our company will continue to tackle key problems, continue to break the technology monopoly of foreign industries, and make contributions to the development of nanomaterials technology in our country. The conductive agent is nanometre carbon materials.
The headquarter of Dengfeng of Henan KELAIWEI Nano Carbon Material Co., Ltd welcomes the research and guidance work of director Zhao and deputy director Dong of the Municipal People's Congress. All the staff of our company are encouraged by the government's on-the-spot support work of "delivering policies, services, elements and confidence". All the staff of our company are full of energy and insist on prevention and control, improve work efficiency, comprehensively promote the resumption of production, accelerate the progress of various projects, and make new contributions to the economic development of our city.
Conductive agent nano carbon materials, KELAIWEI company focuses on the research and development of carbon nanotube materials. Recent news shows that a large multinational enterprise in South Korea has invested nearly more than 0.3 billion yuan to expand its production capacity of carbon nanotube materials. Because carbon nanotubes are being widely used in high-end manufacturing industries, such as automobile parts, semiconductor product manufacturing, high-end battery production, etc. KELAIWEI company will continue to provide customers with carbon nanotube materials products.
What are the advantages of Carbon Nanotubes? Carbon nanotubes are a new type of nanomaterials, which are widely used in modern society. Many products use carbon nanotubes. Carbon nanotubes are light in weight and small in volume, but not as good as tens of thousands of hair filaments. Carbon nanotubes have good thermal insulation and waterproof properties and can be used to make invisible equipment. Carbon nanotubes have rich mechanical properties, mechanical properties, chemical properties and physical properties.
The specific surface area of whisker carbon nanotubes is generally 13~50 m2/g, and that of ordinary carbon nanotubes is above 200 m2/g. The larger the specific surface area is, the worse the dispersion performance of the product is, the agglomeration of conductive agents is more likely to occur. In lithium ion batteries, the larger the specific surface area is, the greater the gas production of lithium ion batteries will be in the long-term cycle process, smaller specific surface area is conducive to improving the cycle performance of lithium ion batteries and reducing the gas production of batteries in the later cycle process.
