The primary load-bearing structures of your home are the walls. For wood frame construction, the walls are compressed by the downward-exerted force resulting from the combined weight of the roof–including trusses, decking, and shingles, as well as standing rainwater or snowfall. Additionally, wind exerts a lateral force on the walls of your home, potentially distorting their perpendicular framing with what building scientists call a "shearing force."
All building code requirements mandate that residential walls be constructed to withstand these forces. Despite the implementation of these, walls that only meet the minimum requirements can be prone to movement (creaking, shifting, shaking, etc.) during high-wind events like tornadoes or hurricanes.
Closed-cell spray foam insulation, which is the highest density SPF insulation available, can reinforce exterior walls when sprayed in stud cavities. Closed-cell SPF adheres to both the exterior sheathing and wall studs to positively benefit the overall structural integrity of a frame wall. With the installation of spray foam, an exterior wall becomes more rigid and thereby less resistant to compression and shearing, and so it can be said to have a greater "racking strength" than a wall without closed-cell SPF.
In fact, NAHB (National Association of Home Builders) research has shown walls installed with closed-cell spray foam have a racking strength anywhere from 75% to 200% greater than walls without it.
When a shearing force acts on a wall, it can be distorted from its intended rectangular shape to that of a parallelogram. Testing a wall assembly’s resistance to shearing forces entails involves a special test overseen by building engineers. A "racking test" typically begins with building an 8 by 8 assembly wall and placing it in a larger testing frame. Engineers secure the base of the assembly wall to the testing frame and then apply a lateral (horizontal) force to the upper unsecured part of the wall assembly. The force is increased (typically in 400 lb. increments) until the wall assembly fails.
In one particular study, wall assemblies installed with and without spray foam insulation were tested. The two exterior-facing building materials that were tested included vinyl siding over 15-lb. building paper and textured plywood siding.
All wall panels were faced with half-inch drywall on the interior-facing side, with studs spaced 16 inches on-center. In the SPF-applied group, the stud cavities of the wall assemblies were filled with closed-cell spray foam (1.5 lb./cu. ft. density).
The graph indicates the wall assemblies that were installed with SPF added significant racking strength, as well as deforming less and offering greater resilience with each applied force.
In another study, walls installed with closed-cell spray foam (average density of 2.26 lb./cu. ft.) were compared to walls installed with traditional fiberglass batt insulation (R-19, per building code requirements). One comparison involved wall assemblies with both sides faced with drywall, while another involved wall assemblies with one side faced with drywall and the other with OSB (oriented strand board). Both comparisons utilized steel studs, spaced 24 inches on-center.
Again, the graph shows the wall assemblies installed with closed-cell spray foam insulation outperformed the other conventional wall assemblies.
Spray foam is the fastest growing insulation material on the market because it lowers energy bills and improves occupant comfort. Our experienced AR contractors install foam insulation in and around the state of Arkansas. Find out more about getting SPF installed in your home here.Download the FREE Guide Now