In terms of scientific research organization, KELAIWEI company not only strives to build independent research and development team, but also establishes and researches and development platform, fully absorbs all kinds of forces to integrate, and attracts domestic first-class professionals to join and cooperate, strive to attract domestic scientific research experts to participate in research and development, keep close contact with domestic and foreign famous scientific research institutions of nano-carbon materials, and form a research, development and application system of nano-carbon materials developed independently and cooperated with scientific research institutes, strive to maintain R & D advantages.
In more than 20 years of technical research, all the technicians of KELAIWEI insist on devoting all their scientific research time to make domestic nano carbon material products well. KELAIWEI insists on processing and manufacturing products for customers with self-developed advanced equipment and preparation technology, and prevents any bad products from getting off the production line. KELAIWEI has almost strict inspection system and process operation process for the production workshop, the products produced by KELAIWEI must be boutique.
Advanced technology, high-quality products and other advantageous resources in the industry can be combined with efficient enterprise management to produce high-quality products. At the beginning of the establishment of clevey nano carbon material company, an efficient management system was established through "lean management law. The production of products is managed "strictly" according to the standards that exceed ISO9001 and IATF16949 quality management system rules, so as to ensure that the quality of the products obtained by customers is superior and they can be used safely.
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.
Chip manufacturing is one of the main battlefields of competition among major powers chip manufacturing must use higher standard materials, however, carbon nanotubes are one of the key materials among many materials. Carbon nanotubes have strong conductive and thermal conductivity and super mechanical properties, high-end carbon nanotubes have become the base material of chip manufacturing. The 500 whisker carbon nanotubes powder production line constructed by Henan KELAIWEI Nano Carbon Material Co., Ltd. will enhance the high-end competitiveness of our products in the nano materials industry, functionalization of carbon nanomaterials.
Fundamentally speaking, are there any essential differences between common carbon nanomaterials and graphene? Graphene is a thin film material. The thickness of graphene is only one carbon atom. The mechanism of graphene is fundamentally different from that of common carbon nanomaterials. Graphene, fullerene nanomaterials, carbon nanotube nanomaterials and so on, these carbon nanomaterials are different in structure and form, it can be said that the physical properties of graphene and carbon nanomaterials are still different.
Graphene is a kind of substance that exists naturally. The accumulation of layers of graphene becomes the graphite that we know everyday. With the progress of human technology, we have further separated a single-layer structure from nature, thus, graphene is a 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, which cannot pass through the layers and has a long conductive path, at the same time, the edge of graphene is easy to hang functional groups, which is not conducive to improving the electrode conductivity and the functionalization of carbon nanomaterials.
