Division 7 Ebook Page 98 FOAMULARŪ PROPINKŪ XPS Insulation Product Data Sheet

Product Data Sheet FOAMULAR PRO PINK Extruded Polystyrene (XPS) Rigid Foam Insulation All construction should be evaluated for the necessity to provide vapor retarders. See current ASHRAE Handbook of Fundamentals. FOAMULAR XPS insulation is a non-structural material and must be installed on framing which is independently braced and structurally adequate to meet required construction and service loading conditions. FOAMULAR insulation can be exposed to the exterior during normal construction cycles. During that time some fading of color may begin due to UV exposure, and, if exposed for extended periods of time, some degradation or "dusting" of the polystyrene surface may begin. It is best if the product is covered within 60 days to minimize degradation. Once covered, the deterioration stops, and damage is limited to the thin top surface layers of cells. Cells below are generally unharmed and still useful insulation. Standards, Codes Compliance Meets ASTM C578 Type X UL Classified. A copy of UL Classification Certificate U-207 is available at www.foamular.com See UL ER8811-01 at UL.com ASTM E119 Fire Resistance Rated Wall Assemblies. See www.foamular.com for details Meets California Quality Standards and HUD UM #71a Compliance verification by RADCO (AA-650) Certifications and Sustainable Features of FOAMULAR XPS Insulation FOAMULAR XPS insulation is reusable FOAMULAR XPS insulation is made with a zero ozone depletion formula Typical Physical Properties 1 FOAMULAR PRO PINK Insulating Sheathing Insulation Property Test Method 2 Value Thermal Resistance 3 , R-Value (180 day) minimum, hrft 2 F/Btu (RSI, Cm 2 /W) @ 75F (24C) mean temperature ASTM C518 " Thickness 3.0 (0.53) " Thickness 4.0 (0.70) 1" Thickness 5.0 (0.88) @ 40F (4.4C) mean temperature " Thickness 3.2 (0.57) " Thickness 4.3 (0.76) 1" Thickness 5.4 (0.95) Long Term Thermal Resistance, LTTR-Value 3 hrft 2 F/Btu (RSI, Cm 2 /W) @ 75F (24C) mean temperature CAN/ULC S770-03 " Thickness N/A " Thickness N/A 1" Thickness 5.0 (0.88) Flexural Strength 4 , minimum psi (kPa) ASTM C203 " Thickness 100 (690) " Thickness 85 (586) 1" Thickness 65 (448) Compressive Strength 5 , minimum psi (kPa) ASTM D1621 15 (103) Water Absorption 6 , maximum % by volume ASTM C272 0.10 Water Vapor Permeance 7 , maximum perm (ng/Pasm 2 ) ASTM E96 0.2 (11.5) Dimensional Stability, maximum % linear change ASTM D2126 2.0 Flame Spread 8, 9 ASTM E84 30 Smoke Developed 8, 9 ASTM E84 75 Oxygen Index 8 , minimum % by volume ASTM D2863 24 Service Temperature, maximum F (C) - 165 (74) Linear Coefficient of Thermal Expansion, in/in/F (m/m/C) ASTM E228 3.5 x 10 -5 (6.3 x 10 -5 ) 1. Properties shown are representative values for core 1" thick material, unless otherwise specified. 2. Modified as required to meet ASTM C578. 3. R means the resistance to heat flow; the higher the value, the greater the insulation power. This insulation must be installed properly to get the marked R-value. Follow the manufacturer's instructions carefully. If a manufacturer's fact sheet is not provided with the material shipment, request this and review it carefully. R-values vary depending on many factors including the mean temperature at which the test is conducted, and the age of the sample at the time of testing. Because rigid foam plastic insulation products are not all aged in accordance with the same standards, it is useful to publish comparison R-value data. The R-value for FOAMULAR XPS insulation is provided from testing at two mean temperatures, 40F and 75F, and from two aging (conditioning) techniques, 180 day real- time aged (as mandated by ASTM C578) and a method of accelerated aging sometimes called "Long Term Thermal Resistance" (LTTR) per CAN/ULC S770-03. The R-value at 180 day real-time age and 75F mean temperature is commonly used to compare products and is the value printed on the product. 4. Value at yield or 5%, whichever occurs first. 5. Values at yield or 10% deflection, whichever occurs first. 6. Data ranges from 0.00 to value shown due to the level of precision of the test method. 7. Water vapor permeance decreases as thickness increases. 8. These laboratory tests are not intended to describe the hazards presented by this material under actual fire conditions. 9. Data from Underwriters Laboratories Inc. classified. See Classification Certificate U-207.

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