KELAIWEI company insists on making high-end technical products, especially paying attention to the quality, regarding the product quality as "life". In the process of market development, we insist on striving for success by technology, attaching importance to credit, service and making profits by justice, and provide cooperative customers with high-performance and high-quality nanomaterials products. Our company firmly believes that achieving clients' dreams is to achieve clients' dreams. Clients' success will lead to success continuously., Welcome to come to KELAIWEI company for investigation and cooperation.
Brief introduction of carbon nanotubes. Carbon nanotubes are a kind of nanomaterials, and they also have the name: Pakistan tube. Carbon nanotubes are composed of carbon atoms with hexagonal structure layer by layer, and the distance between each layer of carbon atoms is about 0.34 nanometers. It can't be seen by naked eyes, and its weight can't be felt by hands. Carbon nanotubes have very rich properties, such as conductivity, heat conduction, stable structure, acid resistance, alkali resistance and water resistance......
Henan KELAIWEI nano carbon material company, relying on its profound technical deposits of high-end nano materials, makes the enterprise go to the fast lane of rapid development. The production line of several nanomaterials built by KELAIWEI company with 0.45 billion yuan the year before last will increase the annual production capacity of 300 tons of whisker-like carbon nanotube powder. With advanced technology and 6S lean management, KELAIWEI company creates word-of-mouth products for customers.
The R & D center of KELAIWEI company added new strength, and KELAIWEI Nano Carbon Material Co., Ltd. established deep cooperation with relevant industry experts of Zhengzhou University of light industry. KELAIWEI company hired Professor Wang Lizhen as our technical consultant. KELAIWEI company firmly believes that with the cooperation of Professor Wang, the R & D strength of KELAIWEI company will be strengthened. KELAIWEI company always pays attention to technical cooperation and communication with professionals at home and abroad.
Electromagnetic shielding materials can be made by uniformly dispersing carbon nanotubes into polymer materials. Carbon nanotube shielding materials generally have broadband microwave absorption capacity, and at the same time have light weight, the characteristics of good electrical conductivity the study of shielding materials of carbon nano-tube battery has achieved preliminary results. The shielding performance of carbon nano-tube electromagnetic shielding materials is close to that of metal copper foil and aluminum foil in high frequency band, and the shielding performance is further improved, it is possible to replace metals as shielding materials in some fields, and the difference between single-walled carbon nanotubes and multi-walled carbon nanotubes.
A Jiangsu manufacturer of physical therapy health products such as neck protection and waist protection has accumulated a large number of old customers, but with the development of the times, its product performance begins to lag behind its peers. In order to maintain competitiveness and maintain old customers, the company began to pay attention to improving the product performance. After contacting the products of KELAIWEI company, it was found that far infrared paper not only greatly improved its product performance, but also saved related materials.
The gas diffusion layer of the fuel cell made of Ba-based paper has the characteristics of excellent chemical properties, mechanical properties, conductive and thermal conductivity, etc. Disordered carbon nanotubes are made into BA-based paper, the BA-based paper has some excellent functions of carbon nanotubes, such as strong chemical stability, strong toughness, non-barrier ion transfer, with super conductive performance, etc. The BA-based paper produced by KELAIWEI company has been monitored by strict quality control center, and has excellent performance. Welcome to order, the difference between single-walled carbon nanotubes and multi-walled carbon nanotubes.
