Division 22 23 Ebook Page 106 Fiberglas 703 and 705 Series Insulation Product Data Sheet

PRODUCT DATA SHEET Type 703 and Type 705 Series Fiberglas Insulation Boards Description Types 703 and 705 Series Insulations are made of inorganic glass fibers with a thermosetting resin binder and formed into semi-rigid or rigid rectangular boards. Types 703 and 705 are available with factory-applied FRK or poly encapsulated ASJ Max facings. Both facings are vapor retarders and provide a neat, finished appearance in mechanical applications. Features Save and reduce heat transfer, lowering operating costs The ASJ Max facing is tougher 3 than standard ASJ. It has a polymer coating that helps resist water staining and does not support mold or mildew growth 4 The ASJ Max facing can resist short durations of liquid water exposure that can occur during construction Resists damage and maintains structural integrity and efficiency. E fficiently reduces sound transmission 7 03 and 705 are lightweight, resilient, easy to handle and fabricate on the job site 3. Based on burst strength testing. 4. ASJ Max jacket does not support mold growth when tested in accordance with ASTM C1338. * Savings vary. Applications Type 703-Semi-rigid boards for use on mechanical equipment and air conditioning ductwork Type 705-A high strength rigid board for use on chillers, other mechanical equipment, and heating and air conditioning ductwork, where high abuse resistance and good finished appearance is important Standards, Codes Compliance ASTM C6 12, Mineral Fiber Block & Board Thermal Insulation, Types IA, IB - Types 703 and 705 ASTM C795 , Thermal Insulation For Use Over Austenitic Stainless Steel1 ASTM C1136 , Flexible Low Permeance Vapor Retarders for Thermal Insulation, Type I: ASJ Max; Type II: FRK N uclear Regulatory Commission Guide 1.36, Non-Metallic Thermal Insulation1 Doesn't contain the fire retardant decabrominated diphenyl ether (decaBDE) CAN/CGSB-5 1.10 - Type I, Class I - Type 703 N FPA 90A and 90B California Insulation Quality Standards CA-T052 1. Preproduction qualification testing complete and on file. Chemical analysis of each production lot required for total conformance. Certification needs to be specified at time of order. Physical Properties Property Test Method Value Equipment Operating Temperature Limitation 1 ASTM C411 0 to 450F (-18 to 232C) Insulation Jacket Temperature Limitation ASTM C1136 -20 to 150F (-29 to 66C) Jacket Permeance ASTM E96, Proc. A 0.02 perm Jacket Burst Strength ASTM D774 ASJ Max: 100 psi Compressive Strength (minimum)at 10% deformation at 25% deformation ASTM C165 703 Board 25 lb/f t2 (1197 Pa) 90 lb/ft 2 (4309 Pa) 705 Board 200 lb/ft 2 (9576 Pa) - Water Vapor Sorption ASTM C1104 <2% by weight at 120F (49C), 95% R.H. Surface Burning Characteristics 2 Flame Spread Index Smoke Developed Index UL 723 ASTM E84 or CAN/ULC S102 25 50 1. Maximum thickness at 450 F (232 C) - 703 and 705: 4" (102mm). 2. The surface burning characteristics of these products have been determined in accordance with UL 723, ASTM E84 or CAN/ULC-S102. These standards should be used to measure and describe the properties of materials, products or assemblies in response to heat and flame under controlled laboratory conditions and should not be used to describe or appraise the fire hazard or fire risk of materials, products or assemblies under actual fire conditions. However, results of this test may be used as elements of a fire risk assessment which takes into account all of the factors which are pertinent to an assessment of the fire hazard of a particular end use. Values are reported to the nearest 5 rating. Thermal Conductivity Mean Temperature F k Btuin/hrft2F Mean Temperature C W/mC 703 705 703 705 50 0.21 0.22 10 0.030 0.032 75 0.23 25 0.033 0.034 100 0.24 0.25 50 0.036 0.037 150 0.27 75 0.040 0.041 200 0.30 100 0.045 0.045 250 0.34 0.33 125 0.050 0.049 300 0.38 0.37 150 0.055 0.053 700 Series R-Values at 75F Mean Product Nominal k-Value at thickness 1-in. 1.5-in. 2-in. 2.5-in. 3-in. 703 4.3 6.5 8.7 10.9 13.0 705 4.3 6.5 8.7 10.9 13.0 To determine R-Value at other thickness or other temperatures on the Thermal Conductive Table above, use the following calculation: Thickness = R-value k-value

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