An automobile manufacturer in the North developed a matching electric steering wheel for its new model, which needs far infrared paper products. The far infrared paper produced by KELAIWEI company has strong flexibility, strong acid and alkali resistance, and strong water resistance, more importantly, the electrothermal conversion efficiency of far infrared paper produced by KELAIWEI company is as high as over 99.95%. The customers are very satisfied and have established a long-term cooperative relationship with our company.
KELAIWEI's lean improvement work has achieved important achievements: the company-Level 5S bronze medal certification has been completed. This is the inevitable result of the company's concerted efforts and earnest study and practice. KELAIWEI rapidly promoted the lean management work and achieved gratifying results by issuing questionnaires, books, excellent tweets of the company's public number, training of lean trainers of the group company, internal and external communication and learning, etc.
The price of carbon nano-tube electric ceramic tile, Henan KELAIWEI nano-Carbon Material Co., Ltd. has made a major technical breakthrough in the research on the application of carbon nano-slurry products in the field of structural reinforcement additives. The research results have confirmed that carbon nano-slurry can be effectively applied to automobile parts manufacturing, aircraft body manufacturing, professional sports equipment manufacturing, high-end wind turbine blade manufacturing and other products as structure enhancement additive in modern industrial manufacturing.
The price of carbon nanotube electric ceramic tile, Henan KELAIWEI Nano Carbon Material Co., Ltd is one of the first enterprises in domestic research and development of whisker carbon nanotube synthesis, especially in the domestic whisker carbon nanotube production and preparation field occupies a leading position, it owns 9 national invention patents, publishes and publishes 2 works on carbon nanotubes, and applies for more than 60 patents, increasing year by year. It has great technical advantages in the field of whisker-like carbon nanotubes.
What is special about the catalytic thermal decomposition of Carbon Nanotubes? Since carbon nanotube materials were discovered in the laboratory by Japanese physicists in 1991, world physicists have exhausted what they have learned and synthesized carbon nanotubes in various ways. Catalytic thermal decomposition method adopts carbon organic matter to react through high temperature environment of 400-600 degrees and high temperature environment of 700-1000 degrees. Carbon materials are mixed with solvent water, catalyst and materials, and then filtered and dried after stirring and dipping. After catalytic reaction, after washing and ultrasonic shock, carbon nanotubes are finally produced.
Since its establishment, our company has been focusing on developing into a leader in the high-end carbon nanomaterials industry and devoting itself to the research on advanced technologies of carbon nanomaterials. As of May 2020, our company has applied for 60 invention patents, published more than 40 professional papers in the industry, published two monograph on carbon nanotubes, obtained 9 national authorized invention patents, it has obtained 2 international PCT patents and successfully walked out of the research and development path of a technology company combining production, teaching and research, breaking the foreign monopoly and selling its products all over the world.
In the field of high-end lithium ion battery manufacturing, a new material is being rapidly applied, namely carbon nanotubes. Compared with the traditional electric black, the conductivity of carbon nanotubes is one tenth higher than that of the latter, and its weight is very light. It is enough to be added and used in a small amount. Compared with the traditional materials, the use of conductive materials can be reduced by 30%. Therefore, KELAIWEI company expects that the market prospect of carbon nanotubes will be bright and the market demand for carbon nanotubes will rise rapidly.
