In the aspect of powder dispersion, breaking the technical barrier that carbon nanotubes must use conductive paste, the powder produced by the company can be directly added in the homogenization process of lithium ion battery, and the use process is very convenient and concise, carbon nanotubes are dispersed evenly in the positive electrode materials. After years of early research and development work, although the products have only recently started mass production, they have been recognized by the vast number of peers, the product performance is similar to that of similar products abroad and can replace imported products.
KELAIWEI carbon nanomaterials company focuses on mastering core technology. The competition of high-end nanomaterials is the competition of cutting-edge technologies. Professor Sun Xiaogang of Nanchang University has led his team to study high-end nanomaterials for more than 20 years, applied for more than 100 technical patents, published more than 40 top Papers and Monographs, thus laying the technical foundation of KELAIWEI company. KELAIWEI company can provide you with high-end nanomaterials products and technical support.
Henan KELAIWEI Nano Carbon Material Co., Ltd. Covers an area of 12,000 square meters and has applied for more than 60 patents. KELAIWEI company firmly believes that technology will change the world, and high-end nanomaterials will certainly boost the national high-end manufacturing. Our company can provide you with stable performance 3C/digital whisker carbon nanotubes products, high-end thermal conductivity whisker carbon nanotubes, power whisker carbon nanotubes and magnification whisker carbon nanotubes and other products.
Stick to the original aspiration and embrace happiness-5S silver medal certification practical training was successfully held. On April 7th, teacher Zhang conducted 5S silver medal certification training for our employees, and through a series of wonderful trainings such as explanation, Q & A, on-site actual combat simulation, re-explanation, re-Q & A, and re-actual combat promotion, let the staff of our company fully feel the importance of "lean thinking" to the improvement of their work effect, and they all expressed that they would apply the Lean Thinking knowledge gained from this training to daily production work.
For lithium battery manufacturing enterprises, conductive agent products are very important Henan KELAIWEI Nano Carbon Material Co., Ltd observed that at present, the traditional conductive agent products are mostly conductive carbon black or nano carbon fiber, etc. In recent years, a new material has emerged: the conductivity of carbon nanotubes is more than 10% higher than that of traditional conductive carbon black KELAIWEI company devotes itself to the research of carbon nanomaterials, and looks forward to cooperating with you for the adsorbability of carbon nanoparticles.
Conductive agents are widely used. What is the future development of conductive agents? Conductive agents include traditional conductive agent materials represented by carbon black, and in recent years, new high-end conductive agent materials represented by carbon nanotubes have been developed. Various conductive agents are constantly appearing in the laboratory. The new conductive agent graphene has not been applied on a large scale, because its cost is too high, but its performance is far higher than that of traditional conductive agents such as carbon black. With the arrival of mass production of graphene, it is bound to be widely used in the future.
The adsorbability of nanometer carbon, the specific surface area of ordinary carbon nanotubes is generally 200-300m2/g, the material's specific surface energy is also larger, the material is more likely to agglomerate to reduce the surface energy, the specific surface area of the whisker carbon nanotubes is 13-50m2/g. The material with lower specific surface area has lower surface energy, and the material is less prone to agglomeration, which is more conducive to the dispersion of the whisker carbon nanotubes on the composite material, only the properties of dispersed carbon nanotubes can be reflected, and whisker carbon nanotubes are more conducive to the exertion of material properties.
