Reflective acrylic sheets are versatile materials with a reflective surface that mimics the properties of a traditional mirror. These sheets are made from acrylic, a lightweight and durable thermoplastic, and they feature a reflective coating on one side to create a mirrored effect. Reflective acrylic sheets offer several key characteristics and applications:
Reflectivity: The primary feature of reflective acrylic sheets is their ability to reflect light, creating a mirror-like surface. This property makes them suitable for decorative and functional purposes.
Lightweight: Acrylic is significantly lighter than glass, making reflective acrylic sheets easier to handle and install. This characteristic enhances their versatility in various applications.
Durability: Acrylic is known for its impact resistance and durability. Reflective acrylic sheets are less prone to breakage compared to traditional glass mirrors, making them a safer choice in certain environments.
Customization: Reflective acrylic sheets can be easily cut and shaped to suit specific design requirements. This customization flexibility makes them suitable for a wide range of creative projects.
Weather Resistance: Acrylic is resistant to the effects of weather, making reflective acrylic sheets suitable for both indoor and outdoor applications.
Lyshire® Reflections acrylic sheet boasts a reflective finish coupled with a robust protective backing, setting a new standard for quality, durability, and performance in the mirrorized acrylic product landscape. Our family of mirrorized products surpasses competitors in terms of resilience and longevity. To ensure top-notch quality assurance, we subject our mirrors to a hot water test comparable to the industry-standard Boil Test.
The Lyshire® Reflections mirror is shielded by one of the most durable backings in the industry, providing unparalleled protection throughout the entire lifecycle— from installation and fabrication to everyday use. This exceptional backing reinforces the mirror surface, ensuring longevity and maintaining its reflective brilliance under various conditions.