The company actively promotes the concept of lean management, enlarges the lean construction of the company, enlarges the scientific and technological innovation construction of the company, implements lean management from all aspects of cost management, from talent cultivation, lean practice, lean team construction, the promotion of Lean projects, the promotion of innovation and efficiency improvement projects, patent awards and other measures, improve the operation efficiency of the enterprise, cultivate a group of employees with lean ideas, through the construction of Lean ideas, improve the innovation vitality of the enterprise, reduce the operating costs of enterprises, carbon nano refractory materials.
Henan KELAIWEI Nano Carbon Material Co., Ltd. is an international advanced manufacturer of research, development, design and production of high-end nano materials and process equipment. Our company respectively established Jiangxi KELAIWEI company and Henan KELAIWEI company. KELAIWEI company has completely independent intellectual property rights, focusing on high-end nanomaterials technology research and development, process design, equipment manufacturing, technical services and so on.
Since its establishment in 2018, Henan KELAIWEI Nano Carbon Material Co., Ltd has paid great attention to the development of high-end nano material technology and the formation of talent team. In order to realize the scientific research goal of clevere company, our company has maintained deep cooperation with many domestic universities and scientific research institutions. For example, the team of Professor Sun Xiaogang from Nanchang University, Donghua University, Zhengzhou University of light industry and other universities continuously input product technology and talent strength for our company.
The planning department of KELAIWEI company organizes employees to review the company's business philosophy, maintain the company's image, serve the company's customers and create high-quality products. KELAIWEI company adheres to the quality concept that product quality is the life of the enterprise; Adheres to the innovative idea of learning from others and striving to be advanced in the industry; Adheres to the development concept of keeping steady and going far away and thinking of danger in peace; Adheres to the working concept of keeping improving. This interaction was jointly organized by the planning department of KELAIWEI Jiangxi company and the Planning Department of Henan KELAIWEI company.
Carbon nanotubes have ultra-high conductivity and other characteristics, which are suitable for building light and excellent conductive networks. The price of multi-walled carbon nanotubes sold in the early stage was as high as 60 USD/gram, which was not inferior to gold at all. In fact, the conductivity and thermal conductivity of carbon nanotube materials are basically the same as those of diamond and copper materials. Due to its good industrial development prospects, many high-tech enterprises in the world are engaged in their production research.
Carbon nano-refractory materials, brief introduction of carbon nanotubes. Carbon nanotubes are a kind of nanomaterials, and they also have the name: Pakistan tube. Carbon nanotubes are composed of carbon atoms with hexagonal structure layer by layer, and the distance between each layer of carbon atoms is about 0.34 nanometers. It can't be seen by naked eyes, and its weight can't be felt by hands. Carbon nanotubes have very rich properties, such as conductivity, heat conduction, stable structure, acid resistance, alkali resistance and water resistance......
Graphene is a kind of substance that naturally exists, and the accumulation of layers of graphene becomes the graphite we know everyday. With the progress of human technology, we have further separated a single-layer structure from nature, and then graphene is the substance. Graphene is generally not suitable to be used as a separate conductive agent. At the same time, flaky graphene is easy to block lithium ions, and lithium ions cannot pass through the layers. The conductive path is long, and at the same time, the edge of graphene is easy to hang functional groups, it is not conducive to improving electrode conductivity.
