KELAIWEI company firmly believes that technology is important, product quality is important, and after-sales service is also important. KELAIWEI insists on making after-sales service into excellent service of the company. Taking care of product delivery as the company's brand image is only the beginning of cooperation, what you have obtained is not only the nanomaterials products of KELAIWEI company, but also the after-sales support of the strong technical team of KELAIWEI company. We will provide you with detailed product technology introduction, we will continue to provide you with technical support services and carbon nanotube integrated circuit prices.
What are the manufacturing methods of carbon nanotubes? Since the discovery of carbon nanotubes, the research on carbon nanotubes has never stopped. Carbon nanotubes have complex and excellent properties. It is both conductive and conductive, very thin but very hard, which is comparable to a hundred times of the hardness of steel. Carbon nanotubes are widely used, so various preparation methods have also been invented. Common production methods include arc method, catalytic thermal decomposition method, hydrothermal method and chemical vapor deposition method, etc.
High-end nanomaterials are capital industries even in technology industries. Henan KELAIWEI Nano Carbon Material Co., Ltd. initially invested 0.45 billion yuan in the research and development and production of high-end nano materials. Ten production lines were set up in Jiangxi province, with each production line reaching 30 tons. Later, a factory area of 13,000 square meters was invested in Henan province, and an annual production line of 300 tons was set up. KELAIWEI will continue to increase investment.
Henan KELAIWEI Nano Carbon Material Co., Ltd. has made a major technical breakthrough in the research on the application of carbon nano slurry products in the field of structural reinforcement additives. The research results have confirmed that carbon nano-slurry can be effectively applied to automobile parts manufacturing, aircraft body manufacturing, professional sports equipment manufacturing, high-end wind turbine blade manufacturing and other products as structure enhancement additive in modern industrial manufacturing.
Adding carbon nanotubes can improve the wear resistance and thermal conductivity of automobile tires by 30%, and greatly improve the service life of tires. At present, only Michelin company abroad has the production technology of carbon nanotubes enhanced tires, KELAIWEI, qingdao University of Science and Technology and Qingdao Linglong Tire three parties cooperate to jointly develop carbon nanotubes reinforced tire adding 1-3% whisker carbon nanotubes can improve the wear resistance of tires by 30% and the thermal conductivity by 20%, greatly improve the comprehensive performance and service life of tires.
A wearable equipment research and manufacturing company in Hong Kong once learned from the Shanghai Convention and Exhibition Center that the purity of the power whisker carbon nanotubes produced by Henan KELAIWEI Nano Carbon Material Co., Ltd. is over 95.950%, and the graphitization degree is over 65%, the thermal conductivity of a single root is not less than 1200W/m.k, the aperture is between 1 nanometer and 5 nanometer, and has recently reached a supply contract with our company. Henan KELAIWEI company not only wins the cooperation of customers with high-quality products, high quality service makes you feel more comfortable to buy, and the price of carbon nanotube integrated circuit.
Whisker carbon nanotubes have higher crystallization and purity than traditional carbon nanotube materials, and are easier to disperse. Therefore, the ultra-high purity whisker carbon nanotubes can improve the cycle performance and magnification performance of lithium batteries better than traditional carbon nanotubes, so they are increasingly Selected as additives by high-end lithium ion battery manufacturers. Henan KELAIWEI Nano Carbon Material Co., Ltd. has made abundant research achievements in the field of whisker carbon nanotubes.
