Spray foam and foam boards can be
used to insulate almost anything, including: roofs, walls, foundations, entry
and overhead garage doors, pipes and tanks, under basement slabs, or over a
slab-on-grade floor. Foam insulation sprayed or placed in wall and floor
cavities both insulates and offers some degree of soundproofing.
Protect all types of foam insulation
from direct sunlight. Over time, the sun's ultraviolet rays can damage them.
For roofs this is generally done by applying a coating such as tar, acrylic,
silicone or rubberized paint. You can also cover the foam with a rubber or
plastic membrane or a layer of asphalt and roofing felt. Make certain you are
using compatible products. The solvents in some coatings dissolve certain
plastics.
There are several ways to incorporate
foam insulation in concrete or masonry walls: pouring loose foam beads into
masonry blocks; injecting/ pouring liquid foam into the hollow block cores;
manufacturing concrete blocks to accommodate rigid foam inserts; as lightweight
concrete blocks that have polystyrene beads in the concrete mixture; and as
rigid foam insulation inside a cast-in-place wall. There are also interlocking
rigid foam panels and blocks that serve as permanent forms for concrete walls
and foundations. These are commonly known as Insulating Concrete Forms (ICF's.)
Even though many foam insulation
products are more expensive than other types of insulating materials, such as
fiberglass, cellulose, etc., they are commonly used in buildings where there
are space limitations or where very high R-values are desirable. Foam
insulation R-values range from R-4 to R-8 per inch of thickness (2.54 cm),
which is 2 to 3 times greater than most other insulating materials of the same
thickness. Also, if all the materials are carefully installed, foam insulation
may control air infiltration more effectively than other types of insulation.
Several variables affect the
installed R-value of foam insulation, including: the initial density of the
foam; the blowing gas used (CFC, HCFC, CO2, air, or a number of other gases);
how the foam insulation is handled (dents and chips adversely effect the
R-value); the type of facing (if any) used; and the
conditions in which the foam is installed.
Foam insulation is often made with
one of three materials: molded expanded polystyrene (MEPS), extruded expanded
polystyrene (XEPS) or polyurethane, polyisocyanurate,
or a related chemical mixture. Some are installed as a liquid while other types
come as factory made panels or "foam board."
Polystyrene
Polystyrene is a strong plastic created from erethylene and benzine that can
be injected, extruded or blow molded, making it a very useful and versatile
manufacturing material.
Styrofoam
What we commonly call styrofoam, is actually the most recognizable form of
foam polystyrene packaging.
Polyurethane
Polyurethane is an organic polymer used in lycra.
Molded Expanded Polystyrene (MEPS)
Foam Board
MEPS is a
closed-cell material that can be molded into many everyday items, such as
coffee cups and shipping materials, or into large sheets as construction
insulation. This material is commonly known as "beadboard,"
and it has an R-value of about 4 per inch of thickness [2.54 cm].
To make beadboard,
loose, unexpanded polystyrene beads containing liquid pentane are mixed with a
blowing agent and poured into an enclosed container. The mixture is then heated
to expand the beads many times their original size. The beads are then injected
into a mold and under more heat and pressure expand to become foam blocks that
are then shaped as required.
The physical properties of MEPS vary
with the type of bead used, but the density of the board is usually one pound
per cubic foot (16.3 kilograms per cubic meter.) Beadboard
is manufactured at various densities, depending on the application. Beadboard for roofing materials has to be dense enough to
walk on without damage. Wall insulation boards are several times less dense
than roof boards. R-values range from 3.8 to 4.4 per inch (2.54 cm) of
thickness. Since spaces between the foam beads can absorb water, a vapor
diffusion retarder is necessary if water transmission
through the insulation might present a problem for the user.
MEPS foams are also available as
small beads of foam too. This type is often used as a pouring insulation for
concrete blocks or other hollow wall cavities. However, be aware that poured
beads are extremely light-weight and take a static electric charge very easily.
They are notoriously difficult to control and any wind at all often results in
the beads flying all over the place. Also, if there is ever a hole in the wall
the foam beads will continue to fall out of the hole until the wall is almost
empty of beads.
Extruded Expanded Polystyrene (XEPS)
Foam Board
Extruded expanded polystyrene (XEPS)
is a closed-cell foam insulation similar to MEPS. To make it, the polystyrene
pellets are mixed with various chemicals to liquefy them. A blowing agent is
then injected into the mixture, forming gas bubbles. The foaming, thick liquid
is then forced through a shaping die. When cooled, the panel is cut as
required. Foam densities are typically 1.5 pounds per cubic foot (0.21
kilograms per cubic meter).
XEPS is more expensive than MEPS, and
like MEPS the R-value depends upon the density of the material. Generally, it's
about R-5 per inch. It is also much more consistent in density and has a higher
compressive strength than MEPS, making it better suited for use on roofs or for
wall panels. Extruded polystyrene also has excellent resistance to moisture
absorption.
Both MEPS an XEPS are often used as
the insulation for Structural Insulating Panels (SIPs)
and as Insulating Concrete Forms (ICFs.)
Polyurethane and Polyisocyanurate
Polyurethane and polyisocyanurate
are both closed-cell foams that contain a low-conductivity gas in the cells
(usually one of the HCFC or CFC gases.) The high thermal resistance of the gas
gives these foams an R-value of between R-7 and R-8 per inch.
Both types are available as a liquid
spray, poured foam and also as rigid boards. They can also be made into
laminated panels with a variety of facings. Foamed-in-place applications are
usually cheaper than installing foam boards and perform better since it molds
itself to all of the surfaces perfectly. However, be sure you use a contractor
with plenty of experience with spray foam installations.
Over time, the R-value of the foam
drops as some of the gas escapes and air replaces it. This phenomenon is known
as thermal drift. When manufactured, the initial R-value is roughly R-9 per
inch. Experimental data on this type of foam indicates that most thermal drift
occurs within the first two years after manufacture and slowly decreases until
it stabilizes at about R-7 per inch. It then remains unchanged unless the foam
is damaged.
Foil and plastic facings on these
foam panels help to slow the escape of gas from the cell structure. Testing
suggests that the stabilized R-value of rigid foam with metal foil facings remains
unchanged after 10 years. The reflective foil, if installed correctly, can also
act as a radiant barrier (another type of insulation) that adds about R-2 to
the insulating assembly. Panels with foil facings have stabilized R-values of
7.1 to 8.7 per inch.
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