The light transmittance of sunshade fabrics directly affects their applicable scenarios, and fabrics with different light transmittance can meet diversified functional needs.
Fully opaque UV resistant sunscreen fabrics are suitable for scenarios with extremely high requirements for light control. For example, darkrooms in film production, precision instrument laboratories, and bedroom blackout curtains. They can completely block ultraviolet (UV) and visible light, and temperature control can be achieved by matching with thermal insulation layers. These are ideal for places requiring completely dark environments or strict protection of equipment.
Slightly translucent sunshade fabrics are mostly used in commercial spaces and art exhibitions. Museum display cases and jewelry store windows use such fabrics, which can block 99% of UV rays while allowing a small amount of soft light. This protects exhibits from fading while maintaining basic visibility. Such materials are also commonly used in X-ray rooms of medical institutions.
Semi-opaque sunshade fabrics are suitable for living and leisure scenarios. High-end hotel balconies and outdoor restaurant sunshades use these products, which filter strong light to create a diffused light effect. They ensure sunshade while creating a comfortable light and shadow atmosphere, balancing privacy and transparency.
High-light-transmittance roller blind solar screen fabrics are mainly applied to functional outdoor spaces. Corridors in landscape gardens and canopies of sports stadium stands often use such materials. Their high light transmittance maintains space brightness while blocking over 85% of UV rays. With waterproof coatings, they can also cope with changeable weather.
When selecting sunshade fabrics (including UV resistant sunscreen fabrics and roller blind solar screen fabrics), it is necessary to comprehensively consider light requirements, UV protection levels, and functional positioning of the scenarios, achieving a balance between the light environment and user experience through scientific matching.