On the basis of a good technological innovation platform, KELAIWEI has established a team with clear division of labor, solid theoretical foundation, rich experience in practical research and development, and efficient cooperation among teams, in the future, the company will continue to increase investment in research and development, establish more advanced research and development laboratories and configure advanced research and development equipment, thus providing a good working environment and equipment support for research and development innovation of research and development technicians. In addition, the company will strengthen the training and introduction of R & D technicians, fully mobilize the innovation enthusiasm of R & D technicians, further enhance the strength of the R & D team and improve the overall innovation level.
The carbon nanotube materials independently developed by KELAIWEI company have obtained many national authorized patents and completely reached the international advanced level. The carbon nanotube materials with high performance and strong stability developed by KELAIWEI company broke the monopoly of relevant foreign technologies and actively promoted the development of high-end carbon materials in the motherland. The management layer of Henan KELAIWEI Nano Carbon Material Co., Ltd has decided to continuously invest in the research and development of carbon nanotube materials for equipment.
KELAIWEI company relies on the research and development achievements of the expert research and development team of Professor Sun Xiaogang of Nanchang University in China for more than 20 years to carry out the industrial and mass production application of high-end nanomaterials. After years of unremitting efforts and continuous investment, our company has achieved the production capacity of far infrared heating paper reaching 30 tons per year, and the production capacity of designed whisker carbon nanotube powder production line reaching 300 tons per year, around 2008, 0.45 billion yuan has been spent on production capacity expansion.
In order to train the management team, strengthen the management of the upper and lower integration, and understand the front-line situation of the company, the group company pays attention to the grass-roots practice of the personnel in the organization, KELAIWEI company responds to the group's call to actively participate in the meeting and study hard. The grass-roots personnel selected by the authorities should abide by the management discipline and work discipline of the temporary enterprise, lower their attitude, go deep into the grass-roots line to understand the actual production, think and analyze the disadvantages and advantages of the current management of the enterprise, and improve the management ability.
Carbon nano-tube adsorption, carbon nano-tube is nano-material, but not carbon nano-fiber, carbon nano-fiber is nano-material carbon nano-tube has nearly perfect hexagonal structure connection, the lifting weight is very, very light, but its mechanical properties, chemical properties and electrical properties are extremely rich, therefore, further research and application are needed. The development of carbon nanotube materials is increasingly widely used in the field of modern high-end industrial product manufacturing, and nano-carbon tube adsorption is needed.
How is carbon nanotubes made by chemical vapor deposition? Carbon nanotube materials are widely used and have strong properties, but their production is very low and the manufacturing process is complex. Therefore, scientists have continuously improved the manufacturing methods. Chemical vapor deposition method is used to produce carbon nanotubes, and its production efficiency is still relatively high. By chemical vapor deposition, carbon-containing gases are cracked by catalysts to obtain carbon nanotubes.
The general ash content of ordinary carbon nanotubes is above 1%, and the ash content of whisker carbon nanotubes can be controlled below 0.1%, which has extremely low ash content and higher purity of carbon content, the high ash content of ordinary carbon nanotubes is mainly due to the need to use catalyst carrier in the synthesis process. Catalyst Carrier is generally not easy to remove at high temperature, and there is no need to use catalyst carrier in the synthesis of whisker carbon nanotubes, in the process of high temperature purification, the catalyst can be completely removed, and the ash content is generally the residual extremely low metal oxide.
