Preparing carbon nanotubes by hydrothermal synthesis, the service cooperation concept of technical advantages, quality advantages, integrity advantages, and achieving win-win results with the benefit of justice helps KELAIWEI nanomaterials move to all corners of the world. In the past 20 years, KELAIWEI nanomaterials have experienced the siege and interception of foreign technologies and insisted on independent research and development. Up to now, KELAIWEI has applied for more than 100 technology patents and sold its products to more than 60 countries around the world. KELAIWEI company is looking forward to working with you to develop the market of nanomaterials.
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.
Henan KELAIWEI has a very perfect product research and development system, quality control system and after-sales service system in the industry. KELAIWEI company has strict inspection and assessment standard system in every link from Project establishment and development of products to industrial production, delivery of customers for testing and so on. KELAIWEI is committed to becoming a leader in the high-end nanomaterials industry, serving customers with advanced technology and delivering customers with high-end products.
Henan KELAIWEI Nano Carbon Material Co., Ltd. and Jiangxi KELAIWEI Nano Carbon Material Co., Ltd. have made significant breakthroughs in the special research of Carbon Nano paste. Thanks to this technology, KELAIWEI company has prepared a new product, far infrared heating paper. The application prospect of carbon nano-slurry in high-end lithium battery and other industrial fields is promising. KELAIWEI nano-carbon material company is looking forward to people with aspirations coming to KELAIWEI headquarters to discuss cooperation.
Carbon nanotubes have extremely high electric heating conversion efficiency, which can be widely used to replace the existing water heating. After the steam heating carbon fiber is electrified, there will be friction and collision movement between countless carbon atoms, thus generating a large amount of heat, the heat energy is released in the way of far infrared radiation, and the total electrothermal conversion rate is as high as over 99.8%, which is the far infrared frequency range emitted by the material with the highest known electrothermal conversion rate, mainly in the physical therapy band beneficial to human body, the market application prospect is extremely broad, and carbon nanotubes are prepared by hydrothermal synthesis.
A manufacturer of far infrared electric heating room in Henan has recently developed a new product. In order to reduce the use of heat conduction materials in order to save space, adding other parts, it is urgent to use far infrared paper to replace some materials, however, the company has strict requirements on the working temperature of the far infrared paper, requiring that the far infrared paper still has super stability within 120 degrees, and the suppliers in the provinces nearby the company are not suitable, finally, we chose our products (the working temperature is less than 300 degrees).
Henan KELAIWEI nano-Carbon Material Co., Ltd. has formed a new material-carbon nano-tube paper, also known as Ba-based paper, by using a series of disordered carbon nano-tube materials with a certain length. Carbon nanotube paper has a larger specific surface area than carbon fiber paper. The strength performance of Ba-based paper is similar to that of thermal conductive graphite sheet. Ba-based paper has ultra-high thermal conductivity due to the use of carbon nanotubes.
