CTD Architectural Tiles introduces Anthology & Delight
New for 2021, CTD Architectural Tiles has introduced two new collections to its portfolio: Anthology and Delight. Manufactured by LEA Ceramiche, the new ranges boast exceptional aesthetic and practical qualities, namely the PROTECT antibacterial solution. Using Microban® Technology, a world-renowned 3rd party accredited antibacterial system, the tile surfaces have been finished with this ground-breaking coating, which eliminates up to 99.9% of bacteria.
Exclusively available through LEA Ceramiche, the innovative antibacterial Microban® coating provides continuous protection, 24 hours a day, giving designers, specifiers and architects the added and increasingly essential benefit of hygiene when it comes to product selection.
Ideal for numerous applications and sectors, including hospitality, healthcare environments, pools and leisure, education, transport and retail, Anthology and Delight offer a luxurious surface solution, whilst delivering on practical performance.
Presented in five different muted colourways, the Anthology porcelain floor and wall tiles depict the natural shade variations and veining of stone and marble. Available in a matt (natural), honed (semi-polished), or structured finish, and 3 sizes (300x600x9.5, 600x1200x9.5, 600x600x9.5mm), the collection is guaranteed to bring a sophisticated nature-inspired touch to a wide range of interior design schemes.
A striking collection of four marble-effect tiles, Delight draws inspiration from the recognisable and eye-catching veining of Italy’s finest marbles. With the added benefit of a +36 PTV wet slip resistance in the matt (natural) finish, a rare option for a luxury marble-effect tile, Delight is also available in a polished and honed (semi-polished) surface finish, in six different sizes – including a large format 1200x2600x6mm. The perfect statement surface for lobbies, bathrooms and retail spaces alike, Delight brings specifiers a distinctly luxurious surface choice that balances both style and function without compromising on either.