Lithium iron phosphate carbon nanotubes, in the field of nano-carbon materials development in China, KELAIWEI has been engaged in industry-related research for more than 20 years. KELAIWEI's research and development team of nanometre carbon materials is led by Professor Sun Xiaogang of Nanchang University. KELAIWEI is committed to helping to realize the leading force of nanometre carbon materials industry in China, insisting on independent development and helping to realize the complete localization of carbon nanotube materials, it has contributed to the manufacturing technology of carbon nanotube materials in China by KELAIWEI.
A brief introduction to the fabrication of carbon nanotubes by arc method. Carbon nanotubes were first discovered by Japanese physicists, and the arc method was also first invented by Japanese scientists. The arc method is to rearrange the structure of carbon atoms in the high temperature environment produced by the arc caused by the graphite electrode of yin and yang poles in the reaction chamber containing the pressure inert gas, so as to obtain a single-wall carbon nano-tube. Since then, the arc method has been continuously improved and perfected day by day.
Advanced technology, high-quality products and other advantageous resources in the industry can be combined with efficient enterprise management to produce high-quality products. At the beginning of the establishment of clevey nano carbon material company, an efficient management system was established through "lean management law. The production of products is managed "strictly" according to the standards that exceed ISO9001 and IATF16949 quality management system rules, so as to ensure that the quality of the products obtained by customers is superior and they can be used safely.
The sixth of the series of "reviewing the development history · encouraging young talents to compete bravely" of KELAIWEI company: events of 2013. KELAIWEI company has a tradition of insisting on technology research and development since its establishment. Professor sun of our company leads the staff of KELAIWEI research and development center to make continuous technological breakthroughs, the process and equipment of whisker carbon nanotubes prepared by our company are improved to 2~4kg/h. Compared with the previous equipment output, it has increased by more than four times.
In the application of carbon nanotubes, capacitors are also an important application direction the main function of capacitors is to store electricity and provide electricity for various electronic products and mechanical equipment, widely used in the mechanical field and other links, the diameter of whisker carbon nanotubes is generally 50-200nm, and the length is from several micrometers to dozens of micrometers. It has large specific surface area and good electrical conductivity, and is an ideal electrode material for supercapacitors, the small supercapacitor cooperated with W is mainly applied to the intelligent three-meter, lithium iron phosphate carbon nanotubes.
A German wearable equipment company plans to set up a research and development center in China to conduct research and development and commercial promotion of wearable equipment. Its research and development center continued to purchase a batch of whisker carbon nanotubes for product research, and found us through the official website of Henan KELAIWEI Nano Carbon Material Co., Ltd. We introduced our product characteristics in detail, performance parameters and other data, and further answered the customer's introduction to the development and strength of our company. At present, the preliminary cooperation intention has been reached.
BA-based paper is also called carbon nano-tube paper because of the use of carbon nano-tube materials. The BA-based paper made by Henan KELAIWEI Nano Carbon Material Co., Ltd. has very good properties in terms of conductivity, thermal conductivity, strength and toughness. This is because carbon nanotubes are used. Carbon nanotubes are recognized as nanomaterials with strong mechanical properties, ultra-high conductivity, superconductivity and high strength.
