XPS Urethane-X Aliphatic Polyurethane Resin Coating

XPS URETHANE-X is a two-component aliphatic polyurethane coating. Once cured, it provides a protective and decorative coating with extremely high resistance to weathering and UV rays. This durable coating also maintains long-term color stability and is suitable for protecting concrete and masonry surfaces. It is available in two finishes: gloss or satin finish.

FEATURES AND BENEFITS:

• Resistant to UV rays, providing durability and color stability
• Long-lasting and durable finish
• Withstands a wide temperature range and weathering
• Excellent abrasion resistance against road traffic and machinery
• Excellent chemical resistance to water, seawater, wastewater, grease, oils, de-icing salts, salt solutions, diluted alkali, and acid solutions
• Excellent adhesion on concrete and cement mortars
• No special primer/bonding agent is required
• Provides a compact, continuous, uniform surface with an anti-dust finish for easy cleaning and maintenance of the coated surface
• Quick drying
• Can be applied as a non-slip floor finish by dusting off aggregates on top
• Easy and ready-to-use product: applied manually by brush, roller, or mechanically by air-less spray equipment
• It is available in two finishes: gloss or satin finish.

Application: Apply by using a brush or roller resistant to solvents. If using an air-less spray equipment, dilute with the minimum amount of solvent that allows its spray application. Curing Time: Allow XPS URETHANE X to cure for at least three days at 68°F (20°C) and 50% R.H. before water immersion, flooding test, or heavy traffic. Applications at lower temperatures, high humidity, and/or poor ventilation require longer drying and curing times. Storage: Twelve months component A and six months component B, in its unopened original packaging. Store in a cool, dry, and covered place, protected from moisture, frost, and direct sunlight, with temperatures between 41°F and 86°F (5°C and 30°C). Storage at higher temperatures may result in an increase in viscosity.