Quality is the life of an enterprise, and quality control needs to permeate every link of product production. KELAIWEI strictly controls product quality, and the company invests a large sum of money to purchase specialized inspection equipment, at present, the company has built a professional powder and slurry testing laboratory, which strictly controls the whole process from raw materials, semi-finished products and finished products, and carries out inspection in strict accordance with the inspection standards, ensure the product quality of each link in the production process, and ensure the stable and reliable quality of the shipped products.
The nanomaterials developed and manufactured by the expert team led by Professor Sun Xiaogang of KELAIWEI company have been sold to more than 60 countries and regions around the world. At present, high-performance lithium battery processing and manufacturing, wearable equipment material application, environmental protection new energy development, special material preparation and other fields will be applied to high-end nanomaterials. KELAIWEI company is willing to cooperate sincerely with people with lofty aspirations all over the world to jointly explore relevant markets.
Carbon nanometre is dispersed into solvent, and KELAIWEI nanometre carbon material company has absorbed a group of like-minded professional R & D talents in high-end nanometre material industry. High-end nanomaterials are different from ordinary products and have high technical requirements. The strong power of technological research and development and innovation is the fundamental guarantee for the survival, development and expansion of KELAIWEI nanocaterials company. KELAIWEI people's courage to innovate in technology and the spirit of keeping improving in products have made many enterprises choose "KELAIWEI creation".
The headquarter of Dengfeng of Henan KELAIWEI Nano Carbon Material Co., Ltd welcomes the research and guidance work of director Zhao and deputy director Dong of the Municipal People's Congress. All the staff of our company are encouraged by the government's on-the-spot support work of "delivering policies, services, elements and confidence". All the staff of our company are full of energy and insist on prevention and control, improve work efficiency, comprehensively promote the resumption of production, accelerate the progress of various projects, and make new contributions to the economic development of our city.
Carbon nanotubes are divided into different types according to different standards. Carbon nanotubes are formed after the graphene sheets are curled. Therefore, if we divide them according to the number of layers of graphene sheets, we can divide them into single-walled carbon nanotubes and multi-walled carbon nanotubes. According to the internal structural characteristics of carbon nanotubes, carbon nanotubes can be divided into sawtooth-shaped carbon nanotubes, armchair-shaped carbon nanotubes and other types.
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.
After graphite treatment, the atomic arrangement in the material is more regular, and the thermal stability of the material is better. Through thermogravity analysis, it is concluded that the material below 800℃ has very good thermal stability, the thermoweightlessness rate is below 5%. Common carbon nanotubes have many defects in the growth process, at the same time, the crystallization degree is low, and the thermal stability of the materials is poor, generally, obvious oxidation will appear below 500℃, thermal weight loss rate is generally above 20%, oxidation resistance is poor, carbon nanoparticles are dispersed into solvent.
