Thermal Performance
The transparent Saining multi-layer panel has excellent light transmittance, which is between 35% and 80% depending on the thickness. And Saining light control board can adjust the light transmittance by changing the color.
However, for buildings in hot areas or facing south, Saining can provide translucent plate of various colors for choice, such as tawny, gray, blue, green, and milky white. Light-controlled panels of various structures can reduce indoor temperature rise and maintain internal temperature at a comfortable level.
The transparent Saining multi-layer panel has excellent light transmittance, which is between 35% and 80% depending on the thickness. And Saining light control board can adjust the light transmittance by changing the color.
However, for buildings in hot areas or facing south, Saining can provide translucent plate of various colors for choice, such as tawny, gray, blue, green, and milky white. Light-controlled panels of various structures can reduce indoor temperature rise and maintain internal temperature at a comfortable level.
Saining light control panel can reduce the brightness of the sun to a comfortable level, and greatly lessen the energy consumption of air conditioning in the summer.
Instead of blocking or reflecting sunlight like other traditional solar control products, the new generation of Saining infrared light-controlled panels absorb the part of the light that causes most of the solar energy to be transmitted.
When the sunlight passes through the building, it directly heats the air. After the sunlight is absorbed by furniture, energy is released in the form of infrared ray. Thermally insulated Saining panels prevents heat from dissipating and increases indoor temperatures -- a phenomenon known as the greenhouse effect. Temperature can be moderated by ventilation. And SC/IR can be controlled by changing the structure and the color of the sheet, so it is recommended that Saining light control sheet used in combination with thermally insulated sheet.
Solar radiation is reflected, absorbed and conducted on the outer surface of the plate.