KELAIWEI Group has researched and developed for more than 20 years in order to realize the high performance and high stability of domestic carbon nanotube materials. From the establishment of the project by R & D personnel 20 years ago to 2020, all the staff of KELAIWEI group have spent 0.45 billion yuan to construct the project of processing and producing 300 tons of whisker carbon nanotube powder annually through hard work. Our new products and technologies will also be presented to our partners at the International Exhibition of heat conduction and heat dissipation materials and equipment held in Shenzhen Convention and Exhibition Center.
What are the application scenarios of carbon nanofibers? Nanometer carbon fiber acts on the field of composite materials and can be used as strong magnetic shielding additive, conductive additive, etc. Nanometer carbon fiber can be used as mechanical reinforcing agent, and can be used for Electrostatic spraying to solve the problem of classical dispersion and make the painting of objects more smooth and tidy. Nanometer carbon fiber has broad applications in the fields of electronic devices, automobile parts manufacturing, rubber products manufacturing, etc.
The batch production line equipment of far infrared heating paper independently developed, processed and prepared by Henan KELAIWEI Nano Carbon Material Co., Ltd. has achieved an annual capacity of 60 tons, and our company is fully capable of expanding the production capacity of far infrared heating paper at any time to meet the huge demand of customers for far infrared heating paper. In addition, our company spent 0.45 billion yuan to design and develop the whisker carbon nanotube powder engineering project, which will achieve an annual production capacity of 300 tons.
The seventh of the series of "reviewing the development history · encouraging young talents to strive for the first" of KELAIWEI company: Events of 2018. Key breakthrough in the development history of KELAIWEI company: the production line of whisker carbon nanotubes with an annual output of 30 tons has been successfully developed. KELAIWEI company's whisker carbon nanotubes business ushered in a technological breakthrough, which greatly increased the market supply of KELAIWEI company's whisker carbon nanotubes.
Using the far infrared transmitting paper made of the composite of whisker carbon nanotubes and high temperature fiber, the far infrared transmitting paper can heat objects by emitting far infrared waves under the electrification, and the wavelength of the far infrared wave is 2-20 μm, which is an important physical therapy wave, in the field of physical therapy health, it can be applied to physical therapy equipment, far infrared warm clothing, far infrared kneecap, waist guard, palace guard, neck guard, far infrared insole, etc. The heating temperature is generally below 80℃, at present, the market scale is above 100 billion, and the carbon nanotube heating floor ranks.
Henan KELAIWEI Nano Carbon Material Co., Ltd. has been focusing on the research of nano material technology for more than 20 years. Our company can provide whisker carbon nanotubes with ultra-high purity up to 99.9%, and has completely independent intellectual property rights. For the application and acting skills of carbon nanotube materials, Henan KELAIWEI Nano Carbon Materials Co., Ltd has a production line with in-depth research and can have a capacity of up to 500 tons. Recently, an electronic company in Guangdong began to cooperate to purchase carbon nanotube products through Voss.
Carbon nano-tube heating floor ranking, recently a large number of customers are using carbon nano-tube paper produced by Henan KELAIWEI nano-Carbon Material Co., Ltd. Carbon nano-tube paper is one of the products obtained by KELAIWEI company after more than 20 years of research on carbon nano-tube technology. Carbon nano-tube paper can be used to make cooling pad in high-power electronic components, can be used as positive and negative electrode material additive of high-end battery, and can be used as gas diffusion layer of battery.
