KELAIWEI's independent research and development has achieved fruitful results. Among them, the successful research and development of whisker carbon nanotube products and manufacturing equipment fills the blank of the industry and improves the product quality. KELAIWEI's product research and development concept, both technical theory and production practice have reached a higher level in the industry. On the basis of satisfying the powder, KELAIWEI strengthened the research and development efforts, and launched the slurry and far infrared transmitting paper products, among which far infrared transmitting paper products belong to new materials in the same industry, KELAIWEI has the exclusive patent right, Graphene Carbon Nano hybrid.
Graphene Carbon nano-hybrid, since its establishment, KELAIWEI nano-carbon materials have relied on advanced technology to "stand" with the world. Science and technology opens the future. Clevere company is professional and focuses on the research and manufacture of high-end carbon nanomaterials. The expert team led by Professor Sun Xiaogang of Nanchang University is committed to becoming the leader of high-end carbon nanomaterials industry. Our products have applied for hundreds of patents and have been recognized by enterprises in more than 60 countries around the world. KELAIWEI will continue to invest in technology to promote product research and development and provide you with high-end carbon nanomaterials.
KELAIWEI nano carbon materials company has absorbed a group of like-minded professional R & D talents in high-end nano materials 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".
From August 27th to August 29th, 2020, the exhibition center in Shenzhen city, Guangdong province will welcome the international 5G key material industry exhibition summit. KELAIWEI group will participate in this grand meeting as promised. In 2020, the development of 5G commercial equipment at home and abroad will enter an important stage. The prospect of 5G key materials industry will be "bullish". KELAIWEI group has strong technical strength. Our company will certainly bring you surprises in this exhibition.
Carbon nanotubes can be used to make touch screen products. The thin film made of carbon nanotubes has very good transparency and conductivity, waterproof, high flexibility, strong shielding interference, high wear resistance, high knock resistance and other advantages. At present, wearable devices and high-end intelligent household products have great prospects in the industry, and carbon nanotube materials have unique advantages in the application of such products due to their excellent performance.
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.
Far infrared emission paper presents a new heating mechanism. Different from traditional heating, it first heats itself and then conducts heat through temperature difference. After we electrify the far infrared transmitting paper, the whisker carbon nanotubes in it will have friction, oscillation, drift and other activities in the nanometer level, and generate electromagnetic waves, the so-called phonon oscillation generates heat. Phonon energy is transmitted in the form of far infrared, without internal phonon scattering loss, the object can be heated quickly.
