KELAIWEI cooperates with Professor Sun Xiaogang of Nanchang University. Relying on the advanced technology accumulated by Professor Sun Xiaogang's expert team for more than 20 years, he has applied for a total of more than 100 patented technologies and 9 national authorized invention patents. Our company relies on advanced technology to independently research and develop production equipment, build production base and train production technicians, so as to realize the full-automatic chemical industry to produce the batch production of whisker-like carbon nanotubes.
How to choose carbon fiber heating pipe for industrial tunnel furnace? The traditional stainless steel electric heating tube is often burned off and its use efficiency is low, which is no longer suitable for the efficient application of industrial tunnel furnace. Carbon fiber heating tube can perfectly replace stainless steel heating tube. The carbon fiber heating pipe has high efficiency and can shorten the length of one tenth to 1/5 of the traditional heating furnace, which only needs 50% to 70% of the traditional installed power. It can be said to be twice the result with half the effort.
Henan KELAIWEI Nano Carbon Material Co., Ltd. Covers an area of 12,000 square meters and has applied for more than 60 patents. KELAIWEI company firmly believes that technology will change the world, and high-end nanomaterials will certainly boost the national high-end manufacturing. Our company can provide you with stable performance 3C/digital whisker carbon nanotubes products, high-end thermal conductivity whisker carbon nanotubes, power whisker carbon nanotubes and magnification whisker carbon nanotubes and other products.
For the function of carbon nanotubes, Henan KELAIWEI Nano Carbon Material Co., Ltd. has made a technological breakthrough again in the study on the controllability of the growth of whisker carbon nanotubes. KELAIWEI nano-carbon material company can precisely control the length and specific surface area of whisker carbon nanotubes and the diameter of whisker carbon nanotubes. Both Henan KELAIWEI company and Jiangxi KELAIWEI Nano Carbon Material Co., Ltd have applied this technology to the industrial mass production of whisker carbon nanotubes.
Improving energy density is the current difficulty and pain point of lithium ion battery. Compared with granular conductive agent, whisker carbon nanotubes is a kind of fibrous conductive agent, which can reduce the addition amount of conductive agent. Due to the flexibility of whisker carbon nanotubes, it can reduce the additive amount of the adhesive. Compared with the complete use of granular conductive agent, the amount of the adhesive can be reduced by 0.5~1.0% by whisker carbon nanotubes. By reducing the adhesive, the proportion of the positive electrode material can be increased, the energy density of the battery is improved.
A Northwest Environmental Protection energy equipment research center urgently needs a batch of whisker carbon nanotubes for product research and development. It requires that whisker carbon nanotubes have ultra-high purity, and can be stably stored at 40 degrees high temperature without losing performance, while the shelf life is long. The purity of whisker carbon nanotubes produced by Henan KELAIWEI nano-Carbon Material Co., Ltd. through complex process is higher than 95%, which is easy to be stored, has strong stability and has a shelf life of half a year, and fully meets the needs of the other side.
The function of carbon nanotubes, there is an important new type of material in the high-performance polymer composite material industry-ba-based paper. BA-based paper is also called carbon nanotube paper. Carbon nanotubes have high conductivity and strong chemical stability, and high hardness and toughness, which can reach 100 times of the steel strength, but their quality is very, very light, BA-based paper can be obtained by using disordered carbon nanotubes through scientific and complex technical treatment, and Ba-based paper also has some performance advantages of carbon nanotubes.
