It is particularly important for LED panel lights to ch […]
It is particularly important for LED panel lights to choose a thermally conductive material to handle heat dissipation technology issues. Among them, at the beginning of the design scheme, the selection of thermally conductive materials is also the most basic step in the design of LED panel lights.
Therefore, the selection of thermally conductive materials is the first step to achieve high efficiency and long life of LED lighting fixtures. LED lights have the advantages of zero pollution, low power consumption, and environmental protection. The market is widely used in various industries. The current Ceiling Panel Lights housing is usually seamlessly spliced to ensure that the light source is not harmed by environmental factors, so that the light source enters the room more smoothly and evenly.
There is also a danger of electric shock on the bulb. Because LED ultra-thin flat panel lights cannot use cooling fans, or of course, convection cooling can also be used to dissipate heat, let alone the LED cooling design scheme must also consider the electro-optical requirements of LED lighting fixtures. In addition, LED thermal design must meet the requirements of lighting design. Only in this way can LED lighting have a stronger selling point, and the lighting design limits the LED heat dissipation design.
If it is to promote the decentralized classification of heat-dissipating lamp sources, and then reduce the high efficiency of the electronic optics, it will be a bit too small. Because the cost of LED heat dissipation is very high, the volume and net weight limit the LED lighting fixture cannot be filled with many materials with high thermal conductivity. Thermally conductive materials include: highly thermally conductive silicon wafers, thermally conductive silicone grease, and thermally conductive phase change materials. Among them is a thermally conductive silicone sheet. Highly thermally conductive silicone gaskets are the most cost-effective and the best choice for heat transfer and heat dissipation materials.