Bathroom Wall Tiles
Mesmerising and emphatic crystalstone quartz bathroom wall tiles are an exquisite choice among homeowners, interior designers and architects alike. These wall tiles are not just beautiful but have several practical qualities. They will transform the look of walls in bathrooms with a sparkly and glistening aesthetic. These premium quartz tiles consist of 95% quartz resins and mirror particles. It is the mirror particles within these quartz tiles that provide a majestic shimmer and glow. Light will reflect off these mirror particles to provide a stunning aesthetic. Crystalstone quartz tiles are available in a range of innovative colours, which are; Midnight black, Diamond white, Arabian cream, Zultanite grey, Sapphire blue, Ruby red, Baby pink, chocolate brown, Emerald green, Amethyst plum and Mandarin rust light brown. Interior designers combine crystalstone quartz wall tiles with a range of colours and innovative designs and features for a contemporary style in bathrooms. Just picture the scene as you walk into your bathroom as the morning sun reflects off these majestic wall tiles to produce an illuminating effect. The mirror particles will sparkle in spectacular fashion to accentuate the light and space throughout the room.
These tiles are not just a popular choice among homeowners but are also used in commercial renovation projects. For en suite bathrooms in hotels architects recommend these exceptional crystalstone quartz wall tiles. Property developers looking to maximise the return on their investment install quartz wall tiles within the bathrooms of their houses and apartments. Crystalstone quartz bathroom wall tiles are of extreme quality. They are ideal for high traffic areas. They are strong, durable and hard wearing. The sleek and smooth surface of these quartz wall tiles makes them an easy to clean option. They are also low maintenance as they do not require sealing after installation. These tiles are a perfect option for bathrooms because they have an impermeable surface with a water absorption rate of just 0.2%.