*After application over wood, primed surfaces or previously painted surfaces (77°F / 50% RH). Other surfaces such as hardboard or vinyl may require a longer dry time.
*After application over wood, primed surfaces or previously painted surfaces (77°F / 50% RH). Other surfaces such as hardboard or vinyl may require a longer dry time. **Based on Benjamin Moore lab test results. Label and technical data sheet recommendations must be followed including priming recommendations over masonry where applicable.
*After application over wood, primed surfaces or previously painted surfaces (77°F / 50% RH). Other surfaces such as hardboard or vinyl may require a longer dry time.
This fast dry interior latex is designed to provide superior hiding and allow for minimal surface preparation. The dry fall qualities of this product cause the overspray to settle as a dry powder in approximately 10 feet of fall. Can be tinted with up to 2oz per gallon of Benjamin Moore Gennex® colorants.
Overspray settles as dry powder (10 ft.)
Superior hiding & low VOCs
Meets MPI standards and is eligible for LEED® v4 credit
Recommended for: For commercial and residential applications. For spray application to interior ceilings, walls and structural members in commercial and institutional buildings. Overspray dries to dust before reaching the floor. May be applied to galvanized metal.
Natural blend. Can be applied to new or old wood, inside or out. Contains no added white lead, asbestos, asbestos-like fibers, silica or harsh chemical preservatives. Packed in water to retain freshness. Ready to use. Interior/exterior use.
Zinsser® DIF® is a unique wallpaper stripper that employs enzymatic breakdown of wallpaper paste to make wallpaper removal easy. This sets it apart from conventional strippers based on wetting agents or steamers which merely rewet and soften wallpaper paste. The DIF® patented formula combines a new and more effective blend of wetting agents and enzymes that degrade wheat paste to penetrate the paper and actively work to break down the molecular structure of the reconstituted paste.