Rocks On leads the industry in large format porcelain and ceramic tiles and slabs, with the broad-ranging offering meeting any architectural and design need. Large format tiles and slabs allow designers to create seamless spaces while their versatility enable wide application across walls and floors as well as in furnishing elements such as bathroom vanities, kitchen benchtops and tables for residential and commercial environments.
Large format options offered by Rocks On include rectified tile formats in 60x120, 90x90, 100x100, 120x120 and 30x240cm sizes for floors, walls and furnishings, plus 100x300, 120x260, 120x280 and 160x320cm porcelain slabs designed for internal and external wall cladding, kitchen and vanity benchtops, splashbacks, tables and furniture.
Atlas MARBLE XL
Featuring the timeless elegance of marble with authentic details that enhance its refined and artistic value, MARBLE is ideal for luxurious high-impact environments designed to impress.
Atlas CONCRETE XL
The character and versatility of concrete recreated in functional porcelain, with dense, deep shades becoming discreet protagonists of the space and giving rooms a strong metropolitan appeal.
Atlas METAL XL
The aesthetic appeal of metal featuring bright iridescent reflections conveys the allure of natural oxidation of an industrial material with architectural verve.
Atlas STONE XL
The detailed stone effect porcelain slabs decorate spaces with natural simplicity. With extraordinary creative potential, the large formats acquire even more earthy strength.
Atlas SOLID XL
The elegance and simplicity of solid black and white define areas with a sharp sense of purpose and function.
Rocks On’s porcelain/ ceramic tiles and slabs
Rocks On’s porcelain and ceramic tiles and slabs are easy to maintain and clean, waterproof, scratch-resistant, stain-resistant, chemical and acid-resistant, UV-resistant, frost-resistant, heat and fire-resistant, and thermal shock-resistant. These products have zero VOCs and PVC, zero formaldehyde, and zero allergens; prevent bacterial growth; offer energy efficiency; and are recyclable.