ICF Walls are Durable and Energy Efficient
Stay-in-place foam forms are well insulated, airtight, and strong
Most brands of insulated concrete forms (ICFs) consist of two parallel panels of foam held apart by rigid plastic spacers. Builders stack ICFs like Lego blocks, brace the forms, and fill the forms with concrete delivered by a pumper truck. The ICFs are left in place as a permanent part of the building.
ICFs are becoming increasingly common. Among their advantages over conventional wood-frame construction are low air infiltration, high thermal massHeavy, high-heat-capacity material that can absorb and store a significant amount of heat; used in passive solar heating to keep the house warm at night. , high strength and fire resistance, good sound-deadening qualities, and much higher insulating values than standard masonry construction. They can be used to form basement walls alone or for an entire wall system, including above-grade walls. According to the Portland Cement Association, using ICFs adds about 3% to overall construction costs compared with a conventional wood-frame building.
Types of ICFs
A variety of shapes and sizes
Most ICFs are made from expanded polystyrene (EPSExpanded polystyrene. Type of rigid foam insulation that, unlike extruded polystyrene (XPS), does not contain ozone-depleting HCFCs. EPS frequently has a high recycled content. Its vapor permeability is higher and its R-value lower than XPS insulation. EPS insulation is classified by type: Type I is lowest in density and strength and Type X is highest.), although some manufacturers used different types of foam.
A common type of ICF is a hollow block with 2-inch-thick foam on each side, typically 16 inches high and 48 inches long. Concrete thickness can vary, depending on the application, from 4 inches to 12 inches. ICFs also are available as planks, usually 1x8s, and panels as large as 4x8s.
Internally, ICFs can form concrete in one of several ways: as a flat wall, as a grid, or in a post-and-beam pattern.
Good ICFs are adaptable and easy to erect
Besides being a system that goes together quickly and easily, ICFs give designers more flexibility than conventional concrete forms. Most ICF systems can be manipulated into curves and angles that require only minor on-site trimming and bending. Many form manufacturers will even create custom blocks or panels to execute your designs with no modifications, saving time and reducing construction waste.
ICF assembly is easy if you know what you're doing
In practice, it’s relatively simple to stack ICFs into walls, although bracing and leveling before the pour are critical. Each system goes together a little differently, so the manufacturer's instructions are a must-read before you start. Just like bricks or concrete masonry units, the first course sets the tone for the rest of the installation, so extra attention at the beginning will pay off. Cuts in the forms can make the concrete pour more shaky; avoid cutting corner blocks, use plenty of bracing, and secure large joints with scabs of plywood.
How do I attach an ICF wall to the rest of the house?
Steel channels secure the forms to a poured concrete footing; anchor bolts penetrate the top of the concrete as in a typical poured wall. Window and door openings that are framed with dimensional lumber go in before the concrete is poured. It may not always be necessary, but using spray foam to seal the forms to existing foundation walls will probably keep the pour a little neater.
Requirements for Insulating Concrete Form (ICFInsulated concrete form. Hollow insulated forms, usually made from expanded polystyrene (EPS), used for building walls (foundation and above-ground); after stacking and stabilizing the forms, the aligned cores are filled with concrete, which provides the wall structure.) wall construction can be found in Section 611 of the IRCInternational Residential Code. The one- and two-family dwelling model building code copyrighted by the International Code Council. The IRC is meant to be a stand-alone code compatible with the three national building codes—the Building Officials and Code Administrators (BOCA) National code, the Southern Building Code Congress International (SBCCI) code and the International Conference of Building Officials (ICBO) code.. Almost 30 pages in length, Section 611 includes numerous detail drawings and tables that help explain the code-approved use of ICFs.
If the building’s design follows the prescriptive guidelines outlined in the code book, plans don’t require the seal of an engineer or architect. Reinforcement specifications can be found in Tables 611.3 through 611.7. Standard floor and roof connection details are identified in Figure 611.7(1). Window and door opening details can be found Figure 611.7(2).
Plates that connect roof framing to ICF walls must be secured with 1/2-inch anchor bolts embedded a minimum of 7 in. and placed a maximum of 6 ft. on-center (611.9).
ABOUT ICF WALLS
ICF homes are tight, strong, and quiet
One way to insulate a poured concrete wall is with permanent forms made of insulation. Insulating concrete forms (ICFs) are panels or hollow blocks that are stacked, braced, and then filled with concrete. They are most commonly solid pieces of rigid foam, but some are composites of cement and other insulating materials.
ICF walls should be seriously considered for any home built in a region subject to regular hurricanes.
Proponents of ICF walls tout at least two energy benefits: low rates of air leakage; and a thermal massHeavy, high-heat-capacity material that can absorb and store a significant amount of heat; used in passive solar heating to keep the house warm at night. benefit. In many climates, an ICF wall provides no thermal mass benefit. Whether an ICF wall saves energy depends upon what the wall is being compared to.
Most homes with ICF walls have lower levels of air leakage than typical wood-framed homes. However, wood-frame homes can be made very airtight.
MORE ABOUT ICF WALLS
Concrete has virtually no insulating value — just R-0.08 per inch. According to tests conducted by Oak Ridge National Laboratory (ORNL), the clear wall R-value for ICF walls is about 12, less than many builders assume. Some types of ICFs that have thicker-than-average foam may have higher R-values.
The R-value of an ICF wall depends upon the details of the ICF blocks and can be the same as or less than the added R-value of the two foam walls, depending on the configuration of the concrete.
Some designers who specify ICFs beef up the performance of the walls by gluing additional rigid foam to the exterior. For example, architect Rachel Wagner specified an ICF foundation for a low-energy-use home in Duluth, Minn. Dissatisfied with the ICF R-value of 25, she specified the installation of an additional 4 inches of extruded polystyrene on the exterior of the ICF walls to raise their R-value to 45.
ORNL research has found that ICFInsulated concrete form. Hollow insulated forms, usually made from expanded polystyrene (EPS), used for building walls (foundation and above-ground); after stacking and stabilizing the forms, the aligned cores are filled with concrete, which provides the wall structure. houses use less energy than the typical wood-framed home. But the thermal mass benefits of ICF houses depend on location: Houses in Minneapolis and Chicago showed the least savings from the thermal mass effect, while those in Phoenix and in Bakersfield, Calif., had the most. In all cases, potential whole-house energy savings were 10% or less when the R-valueMeasure of resistance to heat flow; the higher the R-value, the lower the heat loss. The inverse of U-factor. of the wall was 25.
Canadian researchers who closely monitored the performance of a multiunit residential building with ICF walls reported, "The overall building is relatively airtight, due in large part to the continuity of the ICF wall assembly, as no extraordinary air leakage control measures were undertaken at the roof and foundation levels." One of the researchers, Duncan Hill, commented, "The concrete is a poured-in-place air barrierBuilding assembly components that work as a system to restrict air flow through the building envelope. Air barriers may or may not act as a vapor barrier. The air barrier can be on the exterior, the interior of the assembly, or both.." However, the researchers concluded that an ICF wall offers no thermal mass benefits in Canada.
According to two articles in Environmental Building News ("Thermal Mass and R-value" and "Thermal Mass"), high mass can enhance energy performance, but only when outdoor temperatures cycle above and below the indoor temperature in a 24-hour period. In parts of the country where outside temperatures remain well below the indoor set temperature for weeks at a time, the mass effect isn’t really a factor.
- Al Rosetto
- Nathan Good/Fine Homebuilding #177
- Roe A. Osborn/Fine Homebuilding #170
- Justin Fink/Fine Homebuilding #170