3CM (1.2″) MODERN CONCRETE BEIGE
4 January 2004
3CM (1.2″) MODERN CONCRETE ANTRAZYT
6 January 2004
3CM MODERN Concrete Grey
Material balance between light and control
3CM MODERN Concrete Grey reinterprets the aesthetic of concrete in a 3 cm sintered stone slab, designed for driveable outdoor paving where design precision and visual quality must coexist in a balanced way.
The surface develops on a refined grey base, articulated through a range of tones that move from pearl grey to soft sand and powder nuances, creating a material that is visually soft yet structured. This chromatic balance allows it to overcome the colder and more industrial appearance of traditional concrete, while maintaining a contemporary and architectural language.
The texture is built through micro-variations and subtle veiling that generate depth without creating visual interruptions. The surface appears uniform, continuous and stable, with a clean visual perception that enhances light and elevates the surrounding space.
The matte finish preserves a natural and sophisticated look. The large format 101×101×3 cm (39.8"×39.8"×1.18") enables the creation of wide, coherent outdoor paving, while the structural thickness ensures resistance, stability and reliability even in driveable applications.
Advantages of 3CM MODERN Concrete Grey:
- Evolved concrete with superior perceptual quality: The surface introduces a softer and more refined component compared to traditional concrete, improving visual comfort and spatial quality.
- Visual continuity with high design precision: The absence of intrusive patterns and the controlled micro-variations allow the creation of wide, orderly and architecturally coherent surfaces.
- Driveable performance and advanced resistance: The 3 cm sintered stone slab is designed for driveable outdoor paving, ensuring durability, stability and resistance to loads and weather conditions.
Size
101x101x3 cm (40"x40"x1.2")
Solar Reflectance
Index (SRI)
The Solar Reflectance Index (SRI) measures a material's ability to reflect solar energy and release absorbed heat, essentially indicating how "cool" a surface will stay in sunlight. It combines solar reflectance (how much sunlight bounces off) and thermal emittance (how well it radiates absorbed heat). Higher SRI values mean a material will stay cooler when exposed to sunlight, making it beneficial for reducing heat buildup in buildings and mitigating the Urban Heat Island effect.
