Carbon Metal Nano Technology Co., Ltd. demonstrated nano-R&D capabilities and introduced patented nano-thermal conductive adhesives. Its thermal conductivity was improved by more than 40% compared to conventional thermal conductive adhesives. The biggest features of carbon-based nano-thermal conductive adhesives were non-conducting, anti-oxidation, and deformation. Features, can provide long-term stable thermal conductivity, is a new heat dissipation solution for high power LED lighting above 10W.
It has been pointed out that the current thermal conductive adhesive products designed for the computer and electronics industries have a temperature of around 100 degrees Celsius, which is used in the high-power LED lighting that generates heat at high temperatures, often resulting in inefficient heat transfer to the heat sink. Damaged.
Self-carbon nanometer company's own experiments show that, compared with the traditional thermal plastic, carbon thermal conductivity of carbon nano thermal conductivity in 30 seconds higher than the traditional thermal plastic 40%, which is more than 10 watts of high-power LED lighting will be a development good news.
Xie Yutu, Chairman of Carbon Nanotechnology, emphasized that the unique design of carbon-charging nano-thermal paste is that it can conduct heat in an instant, which can effectively transfer heat, break the bottleneck of heat dissipation in LED lighting products, and expand its market application.
LED lighting will be the mainstream product in the future lighting market. While lighting manufacturers seek to develop more advanced products, heat dissipation is a major obstacle to the development of high-power LED lighting products with more than 10 watts.
Since the carbon-charging nano-thermal conductive adhesive can effectively solve the problem of high-wattage LED lighting heat dissipation, the company has recently taken the lead in marketing and expects to cooperate with the domestic LED industry to seize the opportunities of new generation lighting products.