Schluter-Ditra-XL Uncoupling Membrane IRJ2_P8YOS03
Schluter-Ditra-XL Uncoupling Membrane IRJ2_P8YOS03
Regular price
$73.21 USD
Regular price
$338.00 USD
Sale price
$73.21 USD
Unit price
/
per
Ditra-XL is an uncoupling membrane designed for ceramic and stone tile installations on floors. It provides uncoupling to prevent cracked tile and grout. It is made of polyethylene creating a waterproofing layer protecting the substrate. Ditra can be installed over a variety of subfloors including concrete, plywood, OSB and radiant heated floors. Ditra-XL is 5/16 in. thick which allows for even transitions between tile and 3/4 in. hardwood flooring. Prevents cracked tiles and provides waterproofing Lightweight, easy to install and ready to tile over immediately Allows for even transitions between tile and 3/4 in. hardwood Uncoupling membrane for tiled floor applications Prevents cracked tile and grout and provides waterproofing Ditra-XL is 5/16 in. thick and is designed for ceramic and stone tile Install over a wide range of substrates, including plywood/OSB, concrete, gypsum, heated floors, etc. Provides uncoupling, waterproofing, vapor management, and heavy load distribution Roll covers 175 sq. ft. For commercial and residential applications Easy to install and ready to receive tile immediately DITRA XL 3 ft. 3 in. x 53 ft. 3 in. Uncoupling Membrane, DITRA-XL/175 Provide an essential and ultimate addition to your construction application with this affordable Schluter Ditra-XL Uncoupling Underlayment for Tile.
- Provides uncoupling, waterproofing, vapor management, and heavy load distribution to ensure the durability and integrity of tile installations.
- Quick and easy to install on top of concrete, plywood, OSB, gypsum, existing vinyl floors, structural planks, sub-floors, and radiant heated floors.
- Convenient tile underlayment alternative to cement backer board or plywood.
- Use DITRA for ceramic tile installations over single layer plywood or OSB subfloors on joists spaced up to 19.2 o.c.
- DITRA is only 1/8 (3.5 mm)-thick to provide the thinnest possible assembly without sacrificing performance.