Sil-Wall 5000 Series Solvent-Free Silicone Coating is a silicone coating system developed for above-grade waterproofing and air applications. Finished products demonstrate advanced durability, providing long term resistance to extreme temperatures, high humidity and natural weathering. This single component elastomeric coating effectively waterproofs surfaces while still allowing the air flow essential for maintaining ideal moisture levels within a building.
Available Colors:

High Solid Formula — This solvent-free elastomeric coating is ideal for renewing wall surfaces that have become weathered over time or are prone to leaks.
Better Clean-Ability — Sil-Wall 5000 makes it easy to remove dust, dirt and other forms of accumulated grime from treated surfaces. A simple cleaning with only a towel or pressure washer (if needed) is sufficient for optimal results.
Advanced Whiteness Retention — Sil-Wall dries quickly, reducing interactions between the coating and dust during the initial phase, which allows it to remain whiter. The coating retains a vibrant sheen for years after application, giving your building a clean, consistent appearance.
Environmentally Friendly — Sil-Wall 5000 boasts a long lifespan, lasting much longer than other exterior building coatings. This negates the need for repairs and maintenance, while the silicone also reflects heat to keep interior temperatures cooler. This, combined with the coating’s ability to seal small gaps in the exterior surface (preventing loss of air), allows for energy savings and reduced consumption.
Suitable for Rough Exteriors — High solid applications are ideal for rougher surfaces, like cement and brick. Sil-Wall 5000 has a much thicker consistency than paint, and its rubbery texture allows it to repel paint (and graffiti, although not quite as effectively as Sil-X).
Can Adhere to a Wide Range of Surfaces — Coating is well suited for use on brick, stucco, metal, cement, wood and other surfaces. Sil-Wall 5000 can also be effective as a maintenance coating for pre-existing elastomeric systems.