It’s easy to increase your R-Value beyond R-10 code minimums while maintaining the engineered benefits of continuous InSoFast panels. Simply layer rigid foam insulation board over top of InSoFast panels, a technique we’ve dubbed InSoFast PLUS. This saves money by utilizing locally obtained rigid foam to enhance the R-Value. Additionally, PLUS projects can be completed in a fraction of the amount of time because they start with a base of feature-rich, low-labor InSoFast panels.
You can use any panel CX 44, UX 2.0, or EX 2.5 panels to develop an InSoFast PLUS for a complete R-Value wall assembly – giving you the ability to go from R-8.5 to R-21+.
|PLUS System**||UX 2.0 PLUS (Complete assembly*)||EX 2.5 PLUS (Complete assembly*)|
|InSoFast PLUS ½” Rigid Foam @ R-2.5||R-11.0 (R-13.58)||R-12.5 (R-15.08)|
|InSoFast PLUS ¾” Rigid Foam @ R-3.75||R-12.25 (R-14.83)||R-13.75 (R-16.33)|
|InSoFast PLUS 1″ Rigid Foam @ R-5.0||R-13.5 (R-16.08)||R-15.0 (R-17.58)|
|InSoFast PLUS 1½” Rigid Foam @ R-7.5||R-16.0 (R-18.58)||R-17.5 (R-20.08)|
|InSoFast PLUS 2″ Rigid Foam @ R-10||R-18.5 (R-21.08)||R-20.0 (R-22.58)|
At an award-winning project in North Dakota, the developer wanted additional insulation without sacrificing interior space. They chose InSoFast to be directly install onto the masonry wall with an additional 1″ rigid insulation board placed on top to increase the R-Value to meet the local energy code requirements. It was a labor-saver for this fast track retrofit project.
The InSoFast panels were installed first so the studs would be securely fastened to the concrete substrate. The 1″ rigid foam was installed over top with the InSoFast stud locations marked on the floor and ceiling prior to adding the drywall. To attach the drywall, they used all-purpose 2″ drywall screws to penetrate through the drywall and rigid foam into the InSoFast studs.
The American Society of Heating, Refrigerating and Air-Conditioning Engineers (ASHRAE) standard 90.1 defines continuous insulation (CI) as insulation that is continuous across all structural members without thermal bridges other than fasteners and service openings. It is installed on the interior, exterior, or is integral to any opaque surface of the building envelope.
In cavity insulation systems, traditional stud framing can account for at least 25% of wall space. When the studs are uninsulated, there is enough thermal bridging to drop the R-Value from 19 to 12.5 – nearly a 35% loss, which can render any additional layers of insulation useless.
Building codes have higher requirements for cavity insulation to make up for the uninsulated studs or framing members. That is why basement wall code reads 10/13 in many climate zones. It can be R-10 continuous insulated sheathing on the interior or exterior of the home or R-13 cavity insulation along the interior of the basement wall.
New building codes are increasing R-Values minimums every 3-5 years so that new houses are will not be obsolete or un-affordable 30 years from now due to escalating energy prices. The projected codes for 2030 demand R-Values up to R-30 and the push toward net-zero housing is becoming a reality. While these codes are well-intentioned, they don’t always figure a return on investment into the calculation.
To prepare for rising costs and changing energy environments, you may need to exceed your current local energy codes. See the links at the bottom of this page for information on Climate Zones and changes to the International Energy Conservation Codes (IECC).