Translucent Flexible Slate SKIN 2mm - Forest | Ambient Lighting, Indoor & Outdoor
Experience Nature Indoors. The Translucent Flexible Slate SKIN - Forest brings the lush essence of the forest into your space. With a unique composition of deep greens, earthy browns, and organic patterns, this 2mm slate veneer becomes an immersive masterpiece when backlit, offering a captivating and atmospheric effect.
Advantages and Benefits
This flexible slate is ideal for both residential and commercial applications. Its ultra-thin structure allows for easy installation on curved surfaces, making it perfect for innovative lighting designs and feature walls.
Key Characteristics
Material: Natural slate with a thickness of only 2 mm
Translucency: Enhances LED lighting effects when backlit
Color Palette: Features greens, browns, and textures inspired by the forest
Dimensions: 244 x 122 cm, suitable for vertical and horizontal applications
Flexibility: Lightweight and adaptable to irregular surfaces
Durability: Water-resistant, ideal for indoor and protected outdoor areas
Installation: Fast and clean, perfect for renovations and custom designs
Recommended Uses
Backlit feature walls in living rooms, spas, or lobbies
Bars, counters, or reception desks with ambient lighting
Decorative ceilings or light panels
Eco-themed interiors with bio-inspired or forest aesthetics
Furniture elements and artistic lighting installations
Installation Tips
The lightweight and flexible nature of this slate allows for easy application on both flat and curved surfaces. Ensure a clean and dry surface for optimal adhesion and utilize appropriate adhesives for a secure fit.
Maintenance
Regular cleaning with a soft cloth and mild detergent is recommended to maintain the slate's natural beauty. Avoid abrasive materials that may scratch the surface.
Conclusion
Choose Forest for its unique ability to merge natural aesthetics with modern design. Its translucency and flexibility offer endless possibilities for creating an enchanting ambiance, making it a timeless addition to any space.
