If the slab does not require direct contact with the vapor retarder, what method helps reduce curling?

• A. A 3-Inch Thick Layer of Compactible Manufactured Sand Containing Rock Dust on the Vapor Retarder Before Placement
• B. A 1-Inch Layer of Gravel
• C. A 6-Inch Thick Insulated Layer
• D. A 2-Inch Layer of Slag

Answer: (A)

Curling in a slab is driven by restrained shrinkage and moisture movement creating differential movement between the top and bottom of the concrete. A bedding layer that decouples the concrete from the vapor retarder and provides a uniform, well-compacted surface helps moisture and stress distribute more evenly, reducing the tendency to curl.

Placing a three-inch-thick layer of compactible manufactured sand containing rock dust on top of the vapor retarder before placement creates that decoupling and leveling bed. The sand layer minimizes friction with the vapor barrier, allows the slab to settle and shrink more uniformly, and the rock dust improves compaction so the base is solid and free of voids. Together, this reduces differential movement and curl.

The other options don’t address the issue as effectively. A thinner gravel layer provides less decoupling and cushioning; a thick insulated layer changes thermal conditions but doesn’t directly control the moisture-driven curl; a slag layer may not offer the same predictable compaction and moisture interaction as the sand-sandstone bedding.