KELAIWEI attaches great importance to environmental protection and safety work, and always regards national environmental protection standards as the primary criterion for standardizing production, storage and transportation of products. KELAIWEI has set up a special position of environmental supervision in the production process to correct the nonstandard behaviors in production at any time to ensure the discharge of waste water pollutants up to the standard, environmental noise emission at the factory boundary conforms to the three standards of environmental noise emission standard for industrial enterprises at the factory boundary (GB12348-2008).
"The Lead color fades out and leaves its true color, the big waves and sand rush to see gold at first". After 20 years of persistent research, the expert technical team led by Professor Sun Xiaogang of KELAIWEI company finally made me take the lead in the related technical fields of carbon nanomaterials. Our carbon nanomaterials products have been tested by the actual cooperative applications of cooperative customers in more than 60 countries around the world, and are highly praised by customers for their high performance and stability.
As for carbon nano heating, Henan KELAIWEI Nano Carbon Material Co., Ltd takes the lead in researching and developing the synthesis of whisker-like carbon nanotubes in China, especially in the production and preparation field of whisker-like carbon nanotubes, it owns 9 national invention patents, publishes and publishes 2 works on carbon nanotubes, and applies for more than 60 patents, increasing year by year. It has great technical advantages in the field of whisker-like carbon nanotubes.
Traditional conductive agent products can no longer meet the manufacturing requirements of new high-end lithium batteries. KELAIWEI company is willing to help you develop the high-end lithium battery conductive agent market. The new type of conductive agent products researched and developed by KELAIWEI company will be presented in the exhibition area of KELAIWEI company in "2020 International Exhibition of heat conducting and heat dissipation materials and equipment in Shenzhen Convention and Exhibition Center" on August 27th, 2020.
In the field of high-end lithium ion battery manufacturing, a new material is being rapidly applied, namely carbon nanotubes. Compared with the traditional electric black, the conductivity of carbon nanotubes is one tenth higher than that of the latter, and its weight is very light. It is enough to be added and used in a small amount. Compared with the traditional materials, the use of conductive materials can be reduced by 30%. Therefore, KELAIWEI company expects that the market prospect of carbon nanotubes will be bright and the market demand for carbon nanotubes will rise rapidly.
Carbon Nano heating, brief introduction of research on carbon nano catalyst carrier materials. Carbon nanotubes have very good photoelectric properties, and the specific surface area of carbon nanotubes is very large. Due to the large amount of active site eggs on the surface of carbon nanotubes, they are widely used as catalyst carriers. The academic research of carbon nanotube catalyst carrier pays special attention to the catalytic value of excellent electrical properties of carbon nanotubes, the influence of unique tubular structure of carbon nanotubes on catalysis, the influence of carbon nanotubes with extremely rich hydrogen storage characteristics on catalysis and other fields.
In the ideal situation, carbon nanotubes belong to SP2 hybridization. Because & pi; The movement of electrons produces electrical conductivity, SP3 and SP hybridization is introduced at the bending place of carbon nanotubes, which affects the electrical conductivity of the product, the whisker carbon nanotubes belong to linear structure, and the product has few structural defects. The defective SP3 and SP are hybrid, and the conductivity of carbon nanotubes can be brought into play to a greater extent, and the conductivity of the product is better, when used in composite materials, the conductivity of materials can be significantly improved.
