Many people prefer to build sunrooms when renovating their homes to increase the usable indoor space. This is when you would need to use polycarbonate sheets. Are skylight panels the same as polycarbonate panels? Today, we will clarify this for you. If you're curious, join us for the explanation!
Are skylights the same as polycarbonate sheets?
Different. The main material used for skylight panels is FRP, while the main material for polycarbonate sheets is PC. There is also a certain difference in light transmission rates, with the light transmission rate of polycarbonate sheets ranging from 0-88% and that of skylight panels from 0-85%. Moreover, the flexibility of skylight panels is not as good as that of polycarbonate sheets, which can be bent up to 180 degrees, whereas skylight panels cannot be bent.
What's the difference between light panels and polycarbonate sheets?
1. Matching Aspect
The design of the polycarbonate sheets primarily focuses on flat panels, resulting in limited options for cross-section selection. They also struggle to match with the color steel roof panels and are quite expensive to customize, taking both time and money. In contrast, light panels can be customized to better fit with the color steel panels, offering lower prices and convenience. They can be produced in just two days.
2. Transparency aspects
The raw material for the polycarbonate panels is pure resin. When light hits the surface, it does not scatter but rather refracts, making it particularly dazzling and disorienting to the eye. The material used for the light panels, however, blends a moderate amount of glass fiber into the polyester, causing the light to scatter upon hitting the surface and avoiding the sharp, dazzling sensation.
3. Transport Performance
Polycarbonate sheets can be easily bent and possess excellent flexibility, making them highly efficient in transportation; however, light panels cannot be bent freely, resulting in poorer transportation performance.
4. Lifespan
Polycarbonate panels can resist UV rays but are prone to aging and discoloration, resulting in a limited lifespan. In contrast, light-transmitting panels block external UV rays, thus extending their service life to 15-20 years or more.
