Waterproof: Resin tiles offer excellent waterproof properties, effectively preventing rainwater seepage.
Weatherproof: Made from high-quality, highly weather-resistant engineering resin, resin tiles offer excellent weather resistance in the elements. Even after long-term exposure, they maintain their color and physical properties.
Corrosion-resistant: Resin tiles are corrosion-resistant and are not degraded by acids, alkalis, salt, moisture, or cold, making them ideal for areas subject to salt spray corrosion.
Impact-resistant: Resin tiles offer excellent impact resistance.
Fireproof: Resin tiles are flame-retardant, achieving Class B1 fire resistance. They extinguish immediately upon removal from fire and do not contribute to the spread of fire, ensuring high safety.
Soundproof: Resin tiles offer excellent thermal and acoustic insulation, isolating loud noise from the outside. Climate change also minimizes the impact on the indoor environment, providing a comfortable living environment.
Environmentally friendly: Made from polymer, resin tiles produce less carbon dioxide emissions during manufacturing than traditional stone or concrete tiles, reducing the consumption of natural resources. Furthermore, the production process of resin tiles does not require a large amount of water, reducing pressure on water resources.
Lightweight: Resin tiles are extremely lightweight, making installation easier and reducing the weight of the building.
Energy-saving: Synthetic resin tiles can generate solar energy through photovoltaic conversion, converting it into electricity, making the building self-sufficient. This not only reduces the building's electricity costs but also allows excess electricity to be fed back into the grid, providing clean energy for the surrounding community.
Recyclable: Synthetic resin tiles can be recycled and reused at the end of their lifespan. Because they are primarily composed of polymers, they can be processed and recycled into new synthetic resin tiles, reducing the demand for virgin resources and minimizing the environmental impact of waste.