![]() Under the same conditions, a roof mounted radiant barrier works by reducing the amount of radiation incident on the insulation. This makes the top surface of the insulation cooler than it would have been without a radiant barrier and thus reduces the amount of heat that moves through the insulation into the rooms below the ceiling. When a radiant barrier is placed on the attic floor, much of the heat radiated from the hot roof is reflected back toward the roof. On a sunny summer day, solar energy is absorbed by the roof, heating the roof sheathing and causing the underside of the sheathing and the roof framing to radiate heat downward toward the attic floor. Radiant barrier materials must have high reflectivity (usually 0.9, or 90%, or more) and low emissivity (usually 0.1 or less), and must face an open air space to perform properly. Hence, a material with a high reflectivity has a low emissivity, and vice versa. For a material that is opaque (that is, it does not allow radiation to pass directly through it), when the emissivity and reflectivity are added together, the sum is one (1). The reflectivity is also a number between 0 and 1 (sometimes, it is given as a percentage, and then it is between 0 and 100%). This is a measure of how much radiant heat is reflected by a material. The higher the emissivity, the greater the emitted radiation.Ī closely related material property is the "reflectivity" (also called the "reflectance"). The emissivity is a number between zero (0) and one (1). ![]() The amount of energy emitted depends on the surface temperature and a property called the "emissivity" (also called the "emittance"). All materials give off, or emit, energy by thermal radiation as a result of their temperature. Radiant barriers work by reducing heat transfer by thermal radiation across the air space between the roof deck and the attic floor, where conventional insulation is usually placed. Still another variation is to attach the radiant barrier directly to the underside of the roof deck. Another is to drape the radiant barrier over the tops of the rafters before the roof deck is applied. One variation is to attach the radiant barrier to the bottom surfaces of the attic truss chords or rafter framing. The roof application has several variations. Another way to install a radiant barrier is to attach it near the roof. This is often called the attic floor application. ![]() The simplest is to lay the radiant barrier directly on top of existing attic insulation, with the reflective side up. Radiant barriers may be installed in attics in several configurations. How are radiant barriers installed in a residential attic? For information on other applications, see the references at the end of the Fact Sheet. However, this fact sheet was developed only for applications of radiant barriers in ventilated attics of residential buildings. Radiant barriers can be used in residential, commercial, and industrial buildings. Some products are fiber reinforced to increase the durability and ease of handling. These substrates include kraft paper, plastic films, cardboard, plywood sheathing, and air infiltration barrier material. Radiant barriers usually consist of a thin sheet or coating of a highly reflective material, usually aluminum, applied to one or both sides of a number of substrate materials. The potential benefit of attic radiant barriers is primarily in reducing air-conditioning cooling loads in warm or hot climates. Radiant barriers are materials that are installed in buildings to reduce summer heat gain and winter heat loss, and hence to reduce building heating and cooling energy usage.
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