Polyiso is a closed-cell, rigid foam board insulation consisting of a foam core sandwiched between two facers. The facers are composed of various organic and inorganic materials, usually paper and fiberglass. It is widely used in both residential and commercial markets for both roof and side wall applications.

Polyiso insulation has many attributes including: Polyiso is the most thermally efficient rigid board insulation available in the marketplace; it has the highest R-value per inch of thickness. Moisture resistant foam core. Compatible with most solvents used in construction adhesives. Excellent dimensional stability Superior performance in fire tests – Polyiso meets the strict standard of both FM Class 1 Approvals (FM 4450/4470), UL 1256, and CAN/ULC S126M Wide range of service temperatures. Long Term R-value (only roof insulation with third party certification) CFC and HCFC free – zero ozone depletion potential Recycled content in most products (see manufacturer for details). Negligible global warming potential. Available throughout the U.S. and Canada.

Polyiso insulation is an ideal choice for green building designs because it offers: Reduced fossil fuel consumption. Well-insulated buildings reduce the need for energy, thereby reducing air pollution. Highest Thermal Efficiency - Polyiso is the most thermally efficient insulation available in the marketplace, as determined using Long Term Thermal Resistance (LTTR) values, a 15 year time-weighted R-value. In addition, members of PIMA participate in a third party certification program - Quality MarkCM - to validate these predicted thermal values. Quality MarkCM is a voluntary program administered by FM Global, one of the nation’s most dependable testing organizations. Zero Global Warming Potential - All PIMA Polyiso manufacturing members produce rigid foam board with zero global warming potential blowing agents. This quality is critical as the impact of climate change, or global warming, is acknowledged as a worldwide environmental concern. Recycled Content - Virtually all Polyiso insulation is manufactured using recycled material. The percentage of the recycled material by weight depends on the individual manufacturer and the thickness of the product. Many facers on Polyiso products contain up to 100% recycled materials.

LEED (Leadership in Energy & Environmental Design) is a Green Building Rating System® developed by the US. Green Building Council (USGBC) in the early 1990’s to measure the environmental impact of constructing a building. USGBC brought all sectors of the building industry together to develop a voluntary, national standard for "high-performing, sustainable buildings." PIMA supports this approach, and was one of the first trade associations to join USGBC when that organization opened its doors to industry groups. The LEED Rating System establishes basic requirements for the various aspects of sustainable design: Sustainable Sites, Water Efficiency, Energy and Atmosphere, Materials and Resources, Indoor Environmental Quality, and Innovation and Design Process. Credits or points are earned for meeting the requirements of the specific LEED rating category. A threshold of 38% of the available points is required to achieve the minimum LEED Certified rating. Higher performance levels are designated as Silver, Gold or Platinum and are achieved by meeting minimum points for each level. For suggested opportunities to use Polyiso insulation in a LEED building design, see the Credit Advisory for LEED Projects and Polyiso Roof Insulation. For more information on LEED, please visit www.usgbc.org.

Using Polyiso insulation may help achieve credits under the LEED rating system. Here are some suggested opportunities to incorporate Polyiso in a building design using LEED for new construction and major renovations (Version 2.2): Energy & Atmosphere Minimum Energy Performance: Prerequisite 2 Thermally efficient Polyiso facilitates compliance with ASHRAE 90.1-2004 and local energy codes. Optimize Energy Performance: Credit 1 Polyiso provides the highest thermal resistance per inch of material and can economically contribute to achieving one of the LEED levels of optimized energy performance. Materials & Resources Construction Waste Management: Credit 2 If the total percentage of reused materials in a project does not meet the minimum levels stated in Materials and Resources, Credit 1, Building Reuse, these reuse activities may be applied to this credit. Materials Reuse: Credit 3 Polyiso can be and often is reused in order to reduce demand for virgin materials and reduce waste. Recycled Content: Credit 4 Depending on the product composition, Polyiso can be used toward one of the levels of recycled materials credit. Local/Regional Materials: Credit 5 PIMA’s six manufacturing members have Polyiso insulation plants and source materials across North America. Therefore, the use of Polyiso can contribute towards gaining this credit. Rapidly Renewable Materials: Credit 6 Depending on the product composition, Polyiso can be used toward one of the levels of rapidly renewable materials credit. Certified Wood: Credit 7 FSC-certified wood when used in products where Polyiso is bonded to the wood can contribute to gaining this credit.

Polyiso insulation offers the most extensive range of code approvals for insulation use in roof systems. It remains the only foam plastic insulation product for direct application to steel deck to earn FM Approval for Class 1 Roof Systems. A Class 1 roof is often confused with a Class A roof. A Class 1 Roof considers several attributes of the roofing assembly, such as under deck fire spread, resistance to external fire exposure, wind uplift resistance, hail resistance, and so on. On the other hand, a Class A Roof considers only resistance to external fire exposure of the roof assembly. Because not all Class A Roofs meet Class 1, they should not be treated as equals. An often confusing issue is whether a "Class 1 roof" is the same as a "Class A roof." The distinction between these types of roof classifications becomes even more critical when the roof system contains foam plastic insulation, such as Polyiso, polystyrene or polyurethane. The designation of "Class 1" can be granted only by FM and reflects the successful testing of the roof assembly using FM 4470 standard. Class A, B or C is a measure of the external spread of flame on a roof surface. A number of fire test laboratories including Underwriters Laboratories (UL) and FM Global (FM), conduct this test using either the ASTM E 108 or UL 790 Standard. The best rating achieved is Class A, which is described by UL as "effective against severe fire exposure."1 For more information see the Technical Bulletin 111: Commonly Asked Questions About Class 1 and Class A Roof Assemblies. Sloan, D. E. (2005, May). The UL story: part 1. Professional Roofing. Retrieved on July 25, 2005, from the World Wide Web: http://www.professionalroofing.net/article.aspx?A_ID=641

Based on consensus standards in both the United States and Canada, Long Term Thermal Resistance (LTTR) is a scientifically supported method to calculate the 15-year, time-weighted average R-value of roof insulation. Most Polyiso manufacturers have adopted the LTTR method as the exclusive means to measure thermal performance of permeable-faced Polyiso roof insulation. Polyiso manufacturers, who belong to the Polyisocyanurate Insulation Manufacturers Association, have certified LTTR-value products verified by the QualityMarkcm Program. Click here to view the LTTR Fact Sheet.

The PIMA QualityMarkcm Certification program is a voluntary program that allows Polyiso manufactures to obtain independent, third-party certification for the Long Term Thermal Resistance (LTTR) values of their Polyiso insulation products. Polyiso is the only insulation to be certified by this unique program for its LTTR value. The program is administered by FM Global and was developed by the Polyisocyanurate Insulation Manufacturers Association (PIMA) based on work done at Oak Ridge National Laboratory and ASTM S770. Click here to view the QualityMarkcm Brochure.

Polyiso insulation is suitable for use in masonry cavity walls. Both commercial and residential buildings typically require a "cavity wall" of air space and insulation between the brick veneer and interior to provide protection from weather and fire. Since the required thickness of insulation affects the cost of construction, more and more builders and architects are choosing Polyiso cavity wall insulation because of its superior R-value. Click here for Technical Bulletin 401: "Polyiso Insulation in Masonry Cavity Walls"

According to the Department of Energy, heating and cooling costs comprise more than 44% of the energy consumed in a single family home. As many design professionals are well aware, choosing energy-efficient insulation can be one of the most effective ways to save energy and money. Typically, Polyiso insulation is used to insulate the entire wall (including the framing, which accounts for at least 20% of the total wall area and often is not insulated), thereby significantly reducing heat loss through both convection and conduction. Additionally, properly insulating a structure with Polyiso can decrease condensation in the walls, potentially lowering moisture-related problems. When properly specified and installed, Polyiso sheathing insulation can be one of the best values available for residential construction. Its benefits can include: A residential wall system with a high R-value increasing the energy efficiency of the home and significantly reducing heat loss. A reduction in air infiltration and exfiltration-increasing the overall performance of the wall and reducing heat loss. A reduction in the risk of water condensation/intrusion-increasing thermal and structural performance and reducing builder call backs. Insulation over the entire framing members reduces the loss of energy from the home. Increased home builder confidence with an assurance that the builder is providing a quality product. Increased home buyer/owner confidence-assurance of a quality home with state-of-the-art energy efficient construction techniques.

Insulation is one of the most critical components of a roof, providing much-needed thermal performance in today’s energy conscious world. Polyiso’s unique benefits, strength and versatility allow it to adapt to a variety of roofing applications. Highest R-value per inch Outstanding installed cost advantages Only roof insulation with third-party certification of thermal performance Only high-thermal foam to meet both FM 4470 and UL 1256 Available throughout the U.S. and Canada

As gas and energy prices increase, Polyiso can cut building owners’ utility bills and help reduce pollution. A recent independent study (Barrels of Oil Study) found increasing the amount of Polyiso insulation used on a roof by one inch beyond ASHRAE standards can save millions barrels of oil and reduce energy costs by billions. Using Polyiso insulation saves money for contractors and building owners. In addition to its energy-efficiency and environmental savings, Polyiso cuts construction costs because of its adaptability with a variety of roof systems. Another study found Polyiso insulation can save tens of thousands of dollars in installed costs when compared to other roof insulation materials. (Polyiso Insulation Cost Study). In fact, builders can increase the thickness of Polyiso and improve the R-value of the building and still save money on first-cost installation when compared to minimal levels of extruded and expanded polystyrene.

Unlike other insulating materials, the R-value-per-inch of Polyiso increases with thickness because of the unique closed-cell structure of the rigid foam boards. Because of its superior R-value and durability, buildings that use Polyiso have lower heating and cooling costs. Most Polyiso manufacturers have adopted the LTTR method as the exclusive means to measure thermal performance of permeable-faced Polyiso roof insulation. Polyiso manufacturers, who belong to the Polyisocyanurate Insulation Manufacturers Association, have certified LTTR-value products verified by the QualityMarkcm Program. Based on consensus standards in both the United States and Canada, Long Term Thermal Resistance (LTTR) is a scientifically supported method to calculate the 15-year, time-weighted average R-value of roof insulation. Most Polyiso manufacturers have adopted the LTTR method as the exclusive means to measure thermal performance of permeable-faced Polyiso roof insulation