The research and development cycle of whisker carbon nanotubes is long, and it is not easy to achieve a breakthrough in a short time. Ordinary carbon nanotubes all use solid catalysts to deposit the catalysts on the surface of carrier materials, carbon nanotubes are synthesized by introducing hydrocarbon gas after calcination and reduction. Compared with traditional carbon nanotubes, the process technology of whisker carbon nanotubes is more complicated. In the process of synthesizing whisker carbon nanotubes, improper regulation may lead to the growth of non-linear ordinary carbon nanotubes, the product has high requirements for process control.
KELAIWEI company has been working hard for the high-end nanomaterials industry in the motherland for 20 years. It has developed domestic and overseas markets by virtue of its own technical development and high-end technical services, and has deep cooperation with enterprises in more than 60 countries. KELAIWEI company has built the project of whisker carbon nanotube powder with annual production capacity of 300 tons, and has obtained nine national authorized patents. KELAIWEI relies on its high-end nanomaterials research and development center to continuously provide customers with advanced nanomaterials and technical services.
KELAIWEI company invested 0.45 billion yuan to build a production workshop of 13,000 square meters in the industrial park of Dengfeng city, Henan province. This expansion project will plan several production lines, and strive to expand the production capacity of the whisker carbon nanotube powder project to an annual output of 500 tons, in order to meet the sudden increase of customers' demand, our company insists on the "6s" lean management method to recommend all kinds of work efficiently to ensure that the products are delivered to customers on time and with high quality, and nano activated carbon will heat up.
Everyone has a strong homesickness, everyone has a nostalgia that cannot be given up, and everyone has a beautiful hometown that can never be loved. In order to enrich the working and living forms of the company's employees, KELAIWEI company carried out the photography activity of "Da Mei hometown · take photos in spring. This photography activity not only enhanced the working friendship between the new and old employees in each department of KELAIWEI company, but also enriched the humanistic culture of the company.
Carbon nanotubes can be used to make touch screen products. The thin film made of carbon nanotubes has very good transparency and conductivity, waterproof, high flexibility, strong shielding interference, high wear resistance, high knock resistance and other advantages. At present, wearable devices and high-end intelligent household products have great prospects in the industry, and carbon nanotube materials have unique advantages in the application of such products due to their excellent performance.
Nanometer activated carbon will heat up, how to choose the type of infrared heating tube for industrial tunnel furnace? The lamp tube should choose the coated lamp tube, which should be that when the object is heated, the direction of the object is fixed, and the coated heating tube can transmit infrared energy to the heated object, in this way, the heating efficiency is improved and energy is saved. There are semi-gold-plated reflective coating lamp tubes and semi-White-plated reflective layer lamp tubes commonly seen in the market.
The preparation method of ordinary carbon nanotubes adopts the method of preparing solid catalyst first, and then preparing at high temperature cracking under the action of reducing gas. The solid catalyst commonly used in the catalyst has catalyst carrier, generally, it is not easy to remove, resulting in high ash content. The whisker carbon nanotubes adopt floating gas phase catalysis method, and there is no need to separately prepare solid-state catalyst. The synthesis process cycle is short, and the process is relatively simple, the purification process is high temperature purification with low ash content.
