"Technology is the mainstay, product performance is high, and service is satisfactory" is the business philosophy that the technical staff of Henan KELAIWEI Nano Carbon Material Co., Ltd insist on implementing in the development of more than 20 years. The R & D team of KELAIWEI, led by Professor Sun Xiaogang, the top domestic nanomaterials research expert, has applied for more than 100 patents and has 9 national property rights patents. KELAIWEI pursues promoting the leapfrog development of nanomaterials with technological progress.
A brief analysis of the role of carbon nanotubes in the development of composite material manufacturing and Electrostatic spraying technology. Carbon nanotubes have excellent electrical and mechanical characteristics and can be used as additives for composite materials. For example, its conductive effect has been verified in the laboratory, indicating that carbon nanotubes have higher conductive effect than carbon powder, stainless steel wire and other materials. At the same time, carbon nanotubes can also be used in Electrostatic spraying process, saving procedures and making spraying effect better.
KELAIWEI nano carbon material company has been deeply engaged in the technical field of high-end nano materials for more than 20 years. Our company's product technology is in the charge of the industry's top experts such as Professor Sun Xiao of Nanchang University. The production of our products is controlled by ISO9001 and IATF16949 quality management system. Our products are strictly monitored by industry technicians, with modern scientific and technological process production, we provide customers with high-end nanomaterials products with stable performance.
The R & D center of KELAIWEI company has sent good news the planning department of KELAIWEI company has heard that our company has established technical cooperation with Professor Zhang Meiyun, an industry expert of Shaanxi University of Science and Technology. KELAIWEI company supports and pays close attention to Professor Zhang's R & D, KELAIWEI Nano Carbon Material Co., Ltd. insists on keeping close cooperation with scientific research institutions, strengthening communication, using technology to enhance our company's competitiveness, using technology to give back to the society, and promoting the rapid development of human society.
Using the far infrared transmitting paper made of whisker carbon nanotubes and high-temperature fiber, the far infrared transmitting paper can heat objects by emitting far infrared waves under electrification, and can be applied in home use scenarios such as far infrared electric floor heating, honeycomb heat exchanger, wall-mounted household radiator, car far-infrared heating, electric heating table mat, far-infrared mouse pad, far-infrared electric heating cushion, heater, far-infrared electric heating heater, far-infrared electric heating heating room, the electric heating conversion efficiency of far-infrared paper can reach more than 99%, and can save more than 20% of electricity.
A brand manufacturer of physical therapy heating wear equipment in Jiangxi province, whose products are sold at home and abroad. With the popularity of physical therapy heating wear products, many manufacturers begin to join in the production and research of physical therapy heating wear. Facing the fierce competition situation, this manufacturer pays great attention to the technical advantages and performance advantages of its own products, and starts to try out the far infrared paper after contacting with our company. The far infrared paper of our company has a high emissivity of 99.80%, once adopted, its product performance has been improved by 10% compared with the previous products.
The whisker carbon nanotubes independently developed by KELAIWEI nano-carbon material company, a manufacturing enterprise of conductive paste of carbon nanotubes, have better performance than traditional carbon nanotubes, because the purity of the whisker carbon nanotubes is higher, almost without metal impurities. Whisker carbon nanotubes do not block ion transfer, so their conductivity is stronger, which is very suitable for being used as additive raw materials in lithium battery manufacturing, and can effectively improve the performance and service life of lithium battery.
