Aquatica Scotia Glass Mosaic Tile Satin Finish Mixed 1x1 1x3 11.75x12 Dash Collection

The Aquatica Scotia 1"x1" & 1"x3" Glass Mosaic Tile brings premium Grade 1 glass construction and sophisticated satin finish to shower surrounds, backsplashes, and accent walls. With its distinctive mixed-size design and impervious construction, this mesh-mounted sheet combines contemporary aesthetics with practical performance in wet environments.

• Material & Grade: Grade 1 glass with less than 0.5% water absorption and impervious construction, engineered specifically for wet locations
• Dimensions & Format: 11.75"x12" mesh-backed sheet with mixed 1"x1" and 1"x3" tile pieces for dynamic visual interest and varied pattern possibilities
• Thickness & Profile: 6mm thickness provides durability while maintaining a refined, contemporary profile that doesn't add visual bulk to walls or countertops
• Finish: Satin finish delivers an upscale aesthetic that resists water spots and fingerprints, avoiding the high-maintenance concerns of glossy glass tiles
• Durability & Environment Rating: Frost-proof construction suitable for both indoor bathrooms and outdoor applications, with superior water resistance for long-term performance
• Installation: Pre-mounted on mesh backing for efficient installation with latex-modified thinset, allowing flexibility for curved surfaces and complex layouts
• Application Areas: Designed for walls and countertops in showers, kitchen backsplashes, water features, and decorative accent installations

The mixed 1"x1" and 1"x3" tile composition naturally increases grout line density, enhancing slip resistance in shower floors and wet bathroom areas—a critical safety consideration for high-traffic water spaces. The varied sizes enable custom pattern arrangements that move beyond standard grid layouts, letting you create distinctive designs. The light-reflective satin finish brightens smaller bathrooms and creates visual continuity in open-concept spaces, while the impervious glass construction ensures reliable performance in moisture-heavy environments for years to come.