The URL can be used to link to this page

Permit 2295 Oceanside Ct~. DEMILEC 870 Curd Boivin, Boisbriand (Quebec) Canada, J7G ZA7 ,~;-,~~. TECHNICAL DATA SHEET LOK ~"~ MEMBIIE :a Spray Polyurethane Foam Insulation z ~~ ~;,~~~ NEW GENERATION. Z~ CAN/ULC S705.1 (Including Amendments 1 and 2), TYPE 2 HEATLOK SOYA TM is a thermal insulation spray applied rigid polyurethane foam, green in color, that it tested by an independent recognized laboratory. This foam product surpass the requirements outlined in CAN/ULC 5705.1-O1 (Including amendment 1 & 2) "Standard for thermal insulation -Spray applied rigid polyurethane foam, medium density -Material Specification ".HEATLOK SOYA Type 2 material (i.e. the highest LTTR R value classification) meets the requirement of National Building Code of Canada and is listed by the National Research Council Canada under CCMC Listing # 13244-L. HEATLOK St)V';~, ecological foam is formulated from recycled plastic material, renewable soya product and without any Ozone Depletion Substance blowing agent (Zero ODS). This product meets all the requirements of the Montreal protocol to protect the ozone layer. HEATLOK St}Y"A exceeds the highest requirements for VOC with the GREENGUARD Children and School ~" certifications. HEATLOK fiOY A is applied exclusively by licensed installers and contractors under the application standard CAN/ULC 5705.2. PHYSICAL PROPERTIES Method Description Results ASTM D1622 Core density 34-37 Kg/m (2.1-2.31b/ft ) ASTM C518 Initial Thermal Resistance, 25.4 mm 1,26 RSI (R7.2) Thermal Resistance, 180 days @ 23C, 25.4 mm 1,17 RSI (R6.6) CAN/ULC 5770 Long Term Thermal Resistance (LTTR) CAN/IJLC 5705.1-O1 Classification TYPE 2 (highest level) Design Thermal Resistance (25 mm) 1 RSI (R6) ASTM D1621 Compressive Strength, (10%) 195 kPa (28.3 psi) ASTM D1623 Tensile Strength 355 kPa (51.5 psi) ASTM D 2856 Open cells < 1% ASTM D2842 Volumetric Water Absorption % 0.8 ASTM E96 Water Vapour Permeance, 50 mm 37 ng/Pa.s.m2 (0.65 Perm) CCMC 07273 Air Barrier Material, 25-30 mm 0.00004 L/s/m z @ 75 Pa CAN/ULC 5102 Flame Spread Index 200 Smoke developed Index <500 ASTM D2126 Dimensional Stability, 28 days (% Volume Change, sample without any substrate) -20°C, -0.03 80°C, +2.9 70°C 97% RH. +9.8 CAN/ULC 5774 VOC Emissions from Polyurethane Foam pass (1 day) i:itt~,r:iVi:iiAiii~ inE3i~ur f~~it• wEeaiiiy "` Certified iyltt:l~'~;LsL;.~'~9.a~ Viii?~:~~_, ~~';~:i~:,.uSs"'' Certified ASTM C 1338 Fungi Resistance _ No Fungal Growth The information herein is to assist customers in determining whether our products are suitable for their applications. We request that customers inspect and test our products before use and satisfy themselves as to contents and suitability. Nothing herein shall constitute a warranty, express or implied, including any warranty of merchantability or fitness, nor is protection from any law or patent inferred. All patent rights are reserved. Like all plastic insulation, the foam product is combustible and must be covered by an approved thermal barrier. The exclusive remedy for all proven claims is replacement of our materials. Tel.: (450) 437-0123 1-866-437-0223 Fax.: (450) 437-2338 www.heatlok-soya.com demilec@demilec.com . ~ :: ~- DEMILEC cusn~ LLB. POLYURE7FlANE $YSIEMS MANUFACTURER PRODUCT SPECIFICATION PRODUCT NAME SEALECTIONT"' 500 is aspray-applied, semi- rigid thermal insulation which insulates and air seals in one step. MANUFACTURER The chemical components are manufactured by Demilec (USA) LLC, Arlington, TX. PRODUCT DESCRIPTION SEALECTIONT"' 500 is a two component, open cell spray-applied semi-rigid polyurethane foam. plastic system, fully water-blown having a density of O.Spcf {SkgJm3). The low desity insulating cellu- lar plastic is produced from the controlled reaction of polymeric isocyanate {Part A) and resin (Part B). The by-products of the reaction include carbon dioxide and steam which act as the blowing agent. The effective air-sealing capability of this product comes from the excellent adhesion of the polyure- thane to most substrates. APPLICATION SEALECTIONT'" 500 is sprayed-applied on the job site using a fixed (] l1) volumetric positive displacement pump as identified in the application manual. This material is applied by authorized contractors using approved applicators trained in the art of proper installation. The foam plastic shall not be applied on wet substrate, or a substrate covered with. frost or ice, loose scales, rust, oil or grease. THERMAL PERFORMANCE ThF rmai resistance (R Value) per inch AS"i`M C 518 3.81 ft2 h.°FBTU in. • 2x4 cavity Rl3 • 2x6 cavity R19 SEIILECTIONTM 500 does not settle, sag nor allow the free passage of air through the wall. The restric- tion of air movement through the wall aliaws more effe;etive thermal performance R-value while preventing hot moisture laden air to condense at col j surfaces. Alit PERMEABILITY/AIR BARRIER Th ~ fine cellular structure and adhesion of the ply urethane plastic to most building materials of SEALECTIONTM 500 inhibits the flow of air, thus creating an air impermeable insulation. Ai r Leakage ASTM E 283 3'/:" Thick @ 25 mph -Zero Air Leakage Sustain Wind Load @ 90 mph No Damage Gust Wind Load @ 160 mph No Damage WATER VAPOR PERMEABILITY SI:ALECTIONT"' 500 has a relatively low water vapor permeance. This material is not a vapor b~trier and does not entrap moisture in building materials. The low air permeability prevents the movement of moisture laden air to cold surfaces c~.using condensation. Only in northern climates a v~~por barrier may be required. TECHNICAL DATA Density ASTM D 1622 0.47-0.50 Ibs/ft' Tensile Strength ASTM D 1623 5.6 lbf/inz ICC Evaluation requirntettt for tensile strength is 3 lbf/inz minimum. Closed Cell Conten# ASTM D 2856 ICC Evaluation requiremena Closed Cell Content is less than 90%. ASTM E 96 Water Vapor Transmission (Dry Cup) 2" 3.6 perms V/ATER ABSORPTION A 11 open cell foams will absorb water and shall not be placed in areas with direct contact to liquid v~~ater. U the event that this product gets wet accidentally, it will eventually dry. Thermal perfor- mance of the product will be restored as soon as it is dry. Due to gravity, liquid water will drain through the SEALECTIONT^' SOfl. /.STM D 2842 25-50% GALLERlA DRIVE • ARLINGTON, Tx. 76011 • PHONE: ($17) 640-4900 • Fax: (877) 633-2000 Web site: http:liwww.demilecusa.com • http://www.sealec6on500.c~>m • E-mail: info@sealection500.com Page I of 2 BACTERIAL OR FUNGAL GROWTH SEALECTIONTM 500 provides no food source for bacteria or fungi. ASTM C 1338 No Fungi Growth ACOUSTICAL PROPERTIES Performance in a 2'k6" wood stud wall at frequen- cies of 125 2S0 S00 1000 2000 4000 Hz (ASTM E 90) Sound Transmission Class (STC) 39 17 29 37 4S 47 48 (ASTM C 423) Noise Reduction Coefficient (NRC) .75 .28 .56 .87 .69 J9 .77 SURFACE BURNING CHARACTERISTICS SF.ALECTIONT'" 500 is a Class I insulation and it shall be separated from the inhabitants b~ a itfteen minutes thermal barrier. In attics and crawl spaces, the foam may be left exposed as stated in ttze ICC (ESR 1172). This product showed less flame propa- gation in the comparative crawl spacz and corner wall test than Kraft faced fiberglass insulation. ASTM E 84 Tunnel Test 6" Thick Class I Flame Spread 21 Smoke Developed 216 CANfiJLC-S 102M 25<FC<540 ELECTRICAL WIRING SEf1LECTIONTM 500 has been evaluated with both 12 and 14 amp ROMEX wires without the tempera- ture exceeding 125°F (50°C). C013ROSION SEALECTIONT"i 500 does not cause corrosion to stee ~. EN'VIRONMENTAL/HEALTH/SAFETY SEA LECTIONTM 500 contains no formaldehyde or ozo le-destroying CFCs, HCFCs, or hydrocarbons. An off-gassing and toxicological assessment has bee 1 conducted by government experts, it was determined that the product would be unlikely to cause adverse health problems. This product is eerlified by the Environmental Choice® Program as ~n environmentally responsible material. ECP-40 Building Materials: Thermal Insulation AVAILABILITY Though a network of Authorized Contractors using factory trained applicators. W.I,RRANTY Demilec (USA) LLC warrants a minimum shelf life of six months of the chemical components of 5EALECTIONT"' 500 when stored in unopened dnuns. When applied in accordance with the tatest DI:MILEC Installer's Manual), the product will mE:et the specifications as stated in the technical data sheet. RELATED REFERENCES SI:fILECTIONT~" 500 has been evaluated and listed by International Codes Council ICC (ESR 1172) and Canadian Centre for Material in Construction G~MC (#12697-R). All tests were conducted by certified independent laboratories. Page 2 of 2 Reissued October 7, 2009 This n~port is subject to re-examination in two years. www.icc-es.org ~ (800) 423-6587 ((562) &99-0543 A ~ ubsidiary of the lntemational Code Counci(® DIVISION: 07 THERMAL AND MOISTURE PROTECTION Section: 07210-Building Insulation 3.0 Df:SCRIPTION 3.1 Materials: REPORT HOLDER: DEMILEC USA LLC 2925 GALLERlA DRIVE ARLINGTON, TEXAS 76011 (817) 640-4900 wvuw.demitecusa.com info ondemilecusa.com EVALUATION SUBJECT SEALECTION® 500 SPRAY-APPLIED POLYURETHANE FOAM INSULATION 1.0 EVALUATION SCOPE Compliance with the following codes: ^ 2009 lntemational Building Code® (IBG) ^ 2009 lntemational Residential Code®(IRC} ^ 2009 lntemational EneryyConservation Code®{IECC) ^ Other Codes (see Section 8.0) Properties evaluated ^ Surface-burning characteristics ^ Physical properties ^ Thermal resistance ^ Attic and crawl space installation ^ Air permeability ^ Fire-resistance-rated construction 2.0 USES SEALECTION® 500 spray-applied polyurethane foam insulation is used as a nonstructural thermal insulating material in Type ill and Type V construction under the IBC and in dwellings under the IRC. The insulation is for use in wall cavities, ftooNceiling assemblies, or attics and crawl spaces when installed in accordance with Section 4.0. Under the tRC, the insulation may be used as air- impermeable insulation when installed in accordance with Section 3.4. The insulation may be used in nonload- bearing fire-resistance-rated walls when construction is in accordance with Section 4.5. SE<, LECTION® 500 spray-applied foam insulation is semirigid, low-density, polyurethane foam plastic that is inst:~lled as a component of floor/ceiling and wall assr:~mblies. The insulation is atwo-component spray foam pea. qc with a nominal in-place density of 0.5 pd (8 kg/m3}. The insulation is produced in the field by combining a polymeric isocyanate (A500 component) with a polymeric resi ~ (6500 component). The insulation liquid components are supplied in 55-gallon (208 L} drurns andfor 250-gallon (9411 L) totes and must be stored at temperatures between 40°F (4.5°C) and 700°F (38°C). The liquid components have a shelf fife of one year when stored in factory-seated cot tainers at these temperatures. 3.2 Surface-burning Characteristics: Th~:~ insulation at a maximum thickness of 6 inches (152 mn•) and a nominal density of 0.5 pcf (8 kglm3), has a flame-spread index of 25 or less and asmoke-developed inc.'x of 450 or less when tested in accordance with ASTM E .4. Greater thicknesses are recognized as described in Sections 4.3 and 4.4. 3.:3 Thermal Resistance, R-values: Tt:c; insulation has thermal resistance (R value) at a mean temperature of 75°F (24°C) as shown in Table 1. 3.4 Air Pertneabitity: SEALECTION® 500 spray-applied polyurethane foam irsulation, at a minimum thickness of 3.5 inches (89 mm}, is considered air-impermeable insulation in accondance Htfn Section R806.4 of the IRC, based on testing in aa~rdance with ASTM E 283 and ASTM E 2178. 3.li~ 8lazelokTM' IB Intumescent Coating: Elh:zelokTM' IB intumescent coating, manufactured by TPRZ Corporaton, is a one-component, water-based liquid <x,,ating with specific gravity of 1.3. Blazeiok*"' 18 is :;u plied in 5-gallon (19 L) pails arod/or 55-gallon {208 L) ~inlms and has a shelf life of one year when stored in ~ac:tory-sealed containers at temperatures between 45°F ;7"C) and 90°F (32°C). 3.ti BlazelokT"' T8 intumescent Coating: Bl:azelokTM' TB intumescent coating, manufactured by TPRZ Corporation, is a one-component, water-based liquid coating with speafic gravity of 1.3. BlazelokTM" TB is `Corrected October 2009 lCGGS Emluation Reporu are no! to be construed to representing aesthetics or airy other arMbu es not spec~adly addressed nor are (hey to be construed os an endorsement of the subject of the report ar a recommeudatian jot iLs use. There is no wawa, tty by /CC Evaluation Service, Inc., express or irnplled as to airy finding or other matter in This report, ar as to any produce covered by the report. "'~"'''~'`'~ .:....-- Copyright ®2D09 Page 7 of 4 ESR-1172 ~ Most Widely Accepted and Trusfed ~~~ Page 2 of 4 supplied in 5-gallon (19 L) pails and/or 55-gallon (208 L) drums and has a shelf life of one year when stored in factory-sealed containers at temperatures between 45°F (7°C) and 90°F (32°C). 3.7 Andek Firegard intumescent Coating: Andek Firegard intumescent coating, manufactured by Andek Corporation, is a one-component, water-based coating with specific gravity of 1.37. Andek Firegard is supplied in 5-gallon (19 L) pails and has a shelf life of one year when stored in factory-sealed containers at temperatures between 45°F (7°C) and 90°F (32°C). 4.0 INSTALLATION 4.1 General: SEALECTION® 500 spray-applied foam insulation must be installed in accordance with the manufacturer's published installation instructions and this report. A copy of the manufacturers published installation instructions must be available at all times on the jobsite during installation. 4.2 Application: The SEALECTION® 500 insulation is spray-applied on the jobsite using a volumetric positive displacement pump as identified in the Demilec application manual. The insulation must be applied when the ambient temperature is greater than 23°F (-5°C). The foam plastic must not be used in electrical outlet or junction boxes or in contact with water. The foam plastic must not be sprayed onto a substrate that is wet, or covered with frost or ice, loose scales, rust, oil, or grease. The insulation must be protected from the weather during and after application. The insulation may be applied to the maximum thickness in a single pass. Where insulation is used as an air-impemteable insulation, such as in unvented attic assemblies under IRC Section R806.4, the insulation must be installed at a minimum thickness of 3.5 inches (89 mm}. 4.3 Thermal Barrier: 4.4 ,4ttics and Crawl Spaces: 4.4.1 Application with a Prescriptive Ignition Barrier: When SEALECTION® 500 spray foam insulation is installed within attics or crawl spaces artrer+e entry is made only for service of utilities, an ignition barrier must be insta led in accordance with IBC Section 2603.4.1.6 or IRC Section R316.5.3 or R316.5.4, as applicable. The ignition barrier must be consistent with the requirements for the type of caonstrudion required by the applicable code, and must be installed in a manner so the foam plastic insulation is not exposed. SEALECTION® 500 spray-applied foam insulation as described in this section may be installed in unvented attics in accordance with IRC Section R806.4. 4.4.:; Application without a Prescriptive Ignition Barrier: 4.4.'.1 General: When SEALECTION® 500 spray- applied foam insulation is installed without a prescriptive ignit on barrier in attics and crawl spaces in accordance with Sections 4.4.2.2, 4.4.2.3 or 4.4.2.4, the following conditions apply: a. Entry to the attic or crawl spoor is only to service utilities, and no storage is permitted. b. There are no interconnected attic or crawl space areas. c. Air in the attic or crawl space is not circulated to other parts of the building. d. Under-floor (crawl space) ventilation is provided in accordance with IBC Section 1203.3 or IRC Section R408.1, as applicable. e. Attic ventilation is provided in accordance with applicable codes, except when air-impermeable insulation is permitted in unvented attics in accordance with Section R806.4 of the IRC. f. Combustion air is provided in accordance with IMC Sections 701 and 703. 4.3.1 Application with a Prescriptive Thermal Barrier: SEALECTiONe 500 spray foam insulation must be separated from the interior of the building by an approved thermal barrier of '/2-inch-thick (12.7 mm) gypsum wallboard or an equivalent 15-minute thermal bamer complying with, and installed in accordance with, IBC Section 2603.4 or IRC Section R 316.4, as applicable. Thicknesses of up to 5'/2 inches (140 mm) for wall cavities and 10 inches (254 mm) for floor/ceiling cavities are recognized, based on room comer fire testing in accordance with NFPA 286. 4.3.2 Application without a Thermal or Ignition Bamer: The prescriptive 15-minute thermal barrier or ignition barrier may be omitted when installation is in accordance with this section. SEALECTION® 500 spray foam insulation and BlazelokT"" TB intumescent coating may be spray-applied to the interior facing of walls, the underside of roof sheathing or roof rafters, and in crawl spaces, and may be left exposed as an interior finish without a prescribed 15-minute thermal barrier or ignition barrier. The foam plastic insulation thickness must not exceed 5'/2 inches (140 mm) in walls and 10 inches (254 mm) in floors or ceilings. All foam surfaces must be covered with 14 dry mils (0.36 mm) [22 wet mils (0.56 mm)] of BlazelokTM' TB intumescent coating, described in Section 3.6. The coating must be applied over the insulation in accordance with the manufacturer's installation instructions and this report. 4.4.2.2 Application with Blazetok'*~ IB intumescent Coating: in attics, SEALECTiON® 500 foam insulation may be spray-applied to the underside of the roof sheathing and/or rafters; and in crawl spaces, the insulation may be spray-applied to the underside of wood fbors as described in this section. The thickness of the foam plastic applied to the underside of the top of the sps~ce must not exceed 11'/2 inches (292 mm) and the vertical surfaces must not exceed 10 inches (254 mm). Th ~ vertical surfaces must be covered with a minimum naninal thickness of 10 dry mils (0.25 mm) [16 wet mils (0.4 mm)] of the 8lazelokTM' iB intumescent coating described in Section 3.5 The intumescent coating must be applied over the insulation on vertical surfaces in ac~rdance with the coating manufacturer's instructions and this report. 4.~i.2.3 Application with Andek Firegard Intumescent Coating: In attics, SEALECTIONe 500 foam insulation mray be spray-applied to the underside of the roof sheathing and/or rafters and in crawl spaces. The insulation may be spray-applied to the underside of wood floors as described in this section. The thickness of the fo;sm plastic applied to the underside of the top of the space must not exceed 10 inches (254 mm) and the vertical surfaces must not exceed 5'/z inches (140 mm). Ttre vertical surfaces must be covered with a minimum nominal thickness of 10 dry mils (0.25 mm) [16 wet mils (0.4 mm)] of the Andek Firegard intumescent coating ESR-1172 I Most widely Accepted and Trusted Page 3 of 4 described in Section 3.7. The intumescent coating must t;e applied over the insulation in accorclanoe with the coating manufacturers instructions and this report. 4.4.2.4 Use on Attic Floors: SEALECTlON® 500 spray+- applied foam insulation may be installed at a maximum thickness of 10 incites (254 mm) between and over the joists in attic floors. Ail exposed foam plastic surfaces mist be covered with a minimum nominal thickness of 10 c ry mils (0.25 mm} (16 wet mils (0.4 mm}] of the BlazelokTM IB intumescent coating described in Section 3.5. Tne intumescent coating must be applied over the insulation in accordance with the coating manufacturers instructicns and this report. 4.5 One-hour Fire-resistance-rated Watl Assembl' es (Nonload-bearing): SEALECTION® 500 foam insulation may be used as a component of a one-hour fire-resistance-rated, nonload- bearing wall assembly as described in this section (Section 4.5). 4.5.1 interior and Exterior Face: One layer of 5/e-inch- thidk (16 mm), Type X gypsum wallboard complying ~nrith ASTM C 36 or ASTM C 1396 is installed on the interior and exterior side of nominally 2-by-6, No. 1, Southern yellow pine wood studs spaced 16 inches (406 mm) on cerrter. The wallboard is attached with 15/8-inch-long (41 rtm), coarse-thread drywall screws located 8 inches (203 ~tm) on center along the perimeter and 12 inches on k;~Inter (305 mm) in the field of the wallboard. Wallboard j:pints must be taped and treated with joint oompourni in accordance with ASTM C 840 or GA-216. Fastener h~:ads must also be treated with joint compound in accordance with ASTM C 840 or GA-216. 4.5.2 Stud Cavity: A nominally 5'lrinch (140 mm) thickness of SEALECTION® 500 foam insulation is spray- apptied in all stud cavities. 5.0 CONDITIONS OF USE SEALECTIOIV® 500 spray foam insulation described in this report complies with, or is a suitable alternative to what is spektified in, those codes listed in Section 1.0 of this report, subject to the following conditions: 5.1 The products must be installed in accordance with the manufacturers published installations instructions, this evaluation report and the applicable code. If there are any conflicts between the manufacturer's published installation instructions and this report, this report governs. 5.7 'ihe insulation has been evaluated for use in Type V ;onstruction under the IBC and dwellings under the IRC. When instaAation is in interior wall assemblies in fire-resistance rated Type III and Type V construction, installation must be as described in Section 4.5. 5.8 Jobsite certification and labeling of the insulation must comply with IRC Sections N1101.4 and N110i.4.1 and IECC Sections 102.1.1 and 102.2.11, as applicable. 5.9 The insulation is produced in Arlington, Texas, under a quality control program with inspections by Intertek Testing Services NA (AA-657). 6.0 E'/IDENCE SUBMITTED 6.1 Data in accordance with the iCC-ES Acceptance Criteria for Spray-applied Foam Plastic Insulation (AC377), dated June 2009. 6.2 Reports of comparative room comer fire tests in accordance with Section A1.2.2 ofAC377. ti.3 Reports of air leakage testing in accordance with ASTM E 283. 6.4 Reports of air pertneance tests in accordance with ASTM E 2178. 6.5 Reports of room comer tests in accordance with NFPA 286. 6.6 Reports of tests in accordance with ASTM E 119. 7.0 (DENTtFICATiON Components of the spray foam insulation are identified witY the manufacturer's name (Demilec USA LLC), address and telephone number; the product name (SE~ALECTIONe A500 or SEALECTION® 8500); use instructions; the density; the flame-spread and smoke- developed indices; the date of manufacture; thermal yes=stance values; the evaluation report number (ESR- 11 ~2); and the name of the inspection agency (Intertek Te;~ting Services NA). Each pail of the BlazelokTM' IB and the Blazetokr"' TB intumescent coating is labeled with the manufacturer's Warne (TPRZ Corporation), the product name, and use instructions. Each pail of Andek Corporations Firegard intumescent coating is labeled with the manufacturers name (Andek Corporation) and address, the product trade name, and use instructions. 8.0 OTHER CODES 8.1 Evaluation Scope: 5.2 The insulation must be separated from the int~;rior of the building by an approved 15-minute thermal barrier, except when installation is as descrbed in Sections 4.3.2 or 4.4.1 through 4.4.2.3. 5.3 The insulation must not exceed the thicknesse a noted in Sections 3.2, 4.3, 4.4 and 4.5. 5.4 The insulation must be protected from exposure to weather during and after application. 5.5 The insulation must be appNed by contractors certified by Demilec USA t.LC. 5.6 Use of the insulation in areas where the probability of termite infestation is "very heavy" must be in accordance with IRC Section R318.4 or IBC Section 2603.8, as applicable. The products recognized in this report have also been evaluated in ak•.cardance witty the following codes: ^ 2006 lntemationa18ui1ding Code® (2006 IBC) ^ 2006 /nnemational Residenfia/ Code®(2006 IRC) ^ 2006 Intemational Energy Conservation Code® (2006 IECC) ^ 2003 Intemational Building Code® (2003 IBC) ^ 2003 Intemational Residential Code® (2003 IRC) ^ 2003 international Energy Conservation Codee (2003 IECC) 8.:2 Uses: Sc~e Section 2.0. ESR-1172 C Most Widery Accepted and Tit~sted Page 4 of 4 8.3 Description: 8.5 Conditions of Use: See Section 3.0. The' insulation described in this report complies with, or is a 8.4 Installation: suitai~le alternative to what is specified in, those codes 8.4.1 General: See Section 4.1. listec in Section 8.1 of this report, subject to the conditions noted in Sections 5.1 through 5.9. 8.4.2 Application: See Section 42. 8.4.3 Thermal Barrier: See Section 4.3. 8.6 Evidence Submitted: 8.4.4 Application with a Prescriptive Ignition Barri>>r: See Section 6.0. See Section 4.4.1, except attics must always be vented i~er g,7 Identification: the applicable code. 8.4.5 Application without a Prescriptive ignition See Section 7.0. Barrier: See Sedians 4.3.2 and 4.4.2, except attics must always be vented per the applicable code. 8.4.6 ©ne-hour Fire-resistance-rated Assemblies (Nonload-bearing): See Section 4.5. TABLE 1--THERAAAL RESISTAN ~E (R-VALUES} THICKNESS (inches) ~ R VALUE ('F.ttZ.hlBtu) ASTM C 518 TESTED V,tI.UES 1 4 3.8 15 CALCULATED R-VALUES' 3.5 13 5.5 2] 7 27 10 38 11.5 43.7 For SL• 1 inch = 25.4 mm; 1 'F.ft`.h/Btu = 0.176110 'K.m`NV. 'Calculated R values are based on tested K values at a 4-inch thickness. $~ ~~ DEMILEC 870 Cure Boivin, Boisbriand (Quebec) Canada, J7G 2A7 MATERIAL SAFETY DATA SHEET (MSDS) SPRAY-APPLIED RIGID POLYURETHANE FOAM MATERIAL "AIRMETIC SOYA or/and HEATLOK SOYA" Section 1 : Product & Company Information MANUFACTURER OF CHEMICAL COMPONENTS DEMILEC INC. 870 Cure Boivin Boisbriand, Quebec J7G 2A7 PRODUCT AIRMETIC SOYA / HEATLOK SOYA Chemical name :Rigid Urethane Foam Plastic Chemical family :Urethane CAS # :9009-54-5 Phone:450-437-0123 Fax :450-437-2338 CURRENT ISSUE DATE January 2008 WHMIS CLASSIFICATION Not Regulated Section 2 : Ingredients INGREDIENTS # CAS % TWA Urethane Plastics N/A 95-100 Not Established 1,1,1,3,3-Pentafluoropropane 460-73-1 1-5 300 ppm (AIHA TWA-PEL) Section 3 : Physical Data Physical State :Rigid Cellular Plastic Color :Green lime Odor :Neutral Density : 2.0-2.4 pcf Melting Point : N/A, Thermoset Decomposition Temp. : > 250°F Max. Service Temp. :180°F Solubility in water :None Tel.: (450) 437-0723 1-866-437-0223 Fax.: (450) 437-2338 www.heatlok-soya.com demilec~demilec.com MSDS AIRMETIC SOYA / HEATLOK SOYA Page 1/3 Section 4 : Fire and Explosion Hazard Data State :Combustible Flash Point :Not Established Auto-Ignition Temperature :650-800°F Extinguishing Media :Use water, dry chemical, carbon dioxide or chemical foam. Fire-Fighting Equipment :Because fire may produce toxic thermal decomposition products, wear aself-contained breathing apparatus with a positive pressure. Hazardous Decomposition :Under fire conditions, carbon monoxide, carbon dioxide, hydrogen Products halides and phosphorous oxide, possible traces of hydrogen cyanide and nitrogen oxides. Rigid polyurethane foam like other organic materials such as paper, wood and cotton, can present unreasonable fire risks in certain misapplication when exposed to ignition sources in air. Once ignited, fires can burn rapidly and produce rapid flamespread, quick flashover, toxic or flammable gases, dense smoke and intense heat. In no event should the polyurethane foam remain exposed or unprotected. Precautions 1) Make no application of foam to interior wall and ceilings or other space enclosures without prompt and subsequent application of approved thermal barriers. 2) Do no welding or flame cutting until proper surface protection has been provided. 3) Avoid the confined storage of large urethane foam buns. Section 5 -Reactivity Data Stability :Stable under normal conditions Incompatibility :None known Hazardous decomposition Under fire conditions; carbon monoxide and dioxide, hydrogen Products halides, phosphorous oxide and possible traces of hydrogen cyanide and nitrogen oxides. Polymerization :None Corrosive properties :None Oxidizer properties :None Chemical resistance : -Stable in the presence of most solvents found in binders, bituminous materials, wood preservatives and sealers. -Resistant to facers containing plasticizer, fuel, mineral oil, weak acids and weak bases. -Resistant to fungi and microbes. -UV rays cause a darkening of the foam surface and with time an embrittlement of the surface. MSDS AIRMETIC SOYA / HEATLOK SOYA Page 2/3 Section 6 -Health Hazard Data Routes of entry for solids :Inhalation, skin contact, only if dust is created during cutting. Eye and skin contact with dust :May cause mechanical irritant to skin and eyes Dust inhalation :May cause mechanical irritant to respiratory system. Dust ingestion :May cause choking, if swallowed Section 7 -First Aid Measures Eye dust contact :Irrigate with water for 15 minutes. Skin dust contact :Wash with soap and water thoroughly. Dust Inhalation :Remove to fresh air if effects occur. If not breathing, give artificial respiration. If breathing is difficult, assist with oxygen. Consult a physician. Dust Ingestion : No adverse effects anticipated by this route. Section 8 -Handling Precautions Eye protection :Safety glasses during cutting Skin protection :Protective clothing not necessary Respiration protection :Dust mask during cutting Ventilation :Use sufficient ventilation to keep exposure to dust to minimum (below 5-mg/m3 breathable nuisance dust). Section 9 - Dis osal Considerations Waste disposal : In accordance with Federal, Provincial and local regulations. Section 10 -Storage Informations General :Keep away from open flame, electrical or mechanical sparks, electric heaters, high powered lights, flame sources and flammable liquids and gases. Storage requirements: Protect all indoor bun and sheet storage areas with fusible sprinklers. Section l l -Regulatory Information I All ingredients are listed on the DSL (Domestic Substance List) Section 12 -Transportation Informations Proper shipping name :SPRAY-APPLIED RIGID POLYURETHANE FOAM AIRMETIC SOYA or/and HEATLOK SOYA Primary hazard class : N/A Secondary hazard class : N/A Label required :None Placard required :None Poison constituent : N/A UN Code : N/A EPA Registration # :NIA TDG Classification :Not regulated 13- PREPARATION APPROVED BY : DEMILEC INC. DATE :January 2008 MSDS AIRMETIC SOYA 1 HEATLOK SOYA Page 3/3 HEATLOK -~C1 'ATM LIQUID COMPONENTS PROPERTIES PROPERTY ISOCYANATE A-100 RESIN B0240-0 Colour Brown Blue Viscosity @ 25oC 150-350 cps 150-350 cps Specific gravity 1.20-1.24 1.20-1.24 Shelf life* 6 months 6 months Mixing ratio (volume) 100 100 Vapor pressure @ 25°C 10-~ psi 7-9 psi Note :Components system storage temperature recommendation 15-25°C (59-77°F) * See MSDS for more information. Machine Processing Parameters used Type of machine Gusmer H20/35, D Gun, mix chamber # 62 Components A&B Temperature 38°C (100°F) Components A & B pressure 5860-6900 kPa (850-1000psi) Ambient temperature 23°C (73°F) Thickness per pass 30 mm (1 1/4 inches) Number of passes 2 Substrate Polyethylene Board REACTIVITY PROFILE Cream time Gel time Tack free time End of rise 0-1 sec. 2-3 secs. 4-5 secs. 4-5 sec. RECOMMENDED PROCESSING PROCEDURES Mixing ratio AB, volume 1/1 Mixing temperature at the gun 38°C (100°F) @ 49°C (120°F) Mixing dynamic pressure (minimum} 5516 kPa (800 psi) Substrate & Ambient temperature > -10°C (14°F) Curing temperature > -10°C (14oF) Maximum thickness per pass 50 mm (2 in ) Maximum thickness of successive passes 100 mm (4 in.) Minimum cooling time period before applying over 4 in. thick application 4 hours GENERAL INFORMATIONS: As any other plastic insulation, it is recommended that the foam be covered with an approved thermal barrier in accordance to the local and national building codes when used in buildings and a protective coating when used outside. This product should not be used when the continuous service temperature of the substrate is outside the range of -60°C to 80°C (-76°F to 180°F).Respect recommended processing installation procedures, never apply excessive thickness of SPF in one application, it may cause spontaneous combustion of the foam hours after the foam was installed. AIRMETIC Siz~:~ is the French trade name of HEATLOK Sews. HEATLOK SO1',1 /November 12th, 2009 ° ~ O N O O s •~ ~.J T ~~ ~ ~ o ~ ~ U ~ U N C N ~ ~ v N ' p (((O]]] y ~" ~ 0 ° ~ s U ... N cs. a~ ~ m N ~ ~ . E . ~ rn o°`~i ~=_ 4~ O N 3 t!f t"d6 `{~ N - ~ ~ ~ ~ O .(~ ~,OG'"' N cq~ ~ N G ~ ~ a. ~ `~' N O ~ ~ U U N ~ g N N n ~ N ~ O +~ 'Q ~" N 7„ ~ T f1 ~ ~ ~ O V (~ GNNp N o O U 'Ci 'O ~ ~ " "~ ~ N c06 .` N S ~ t~6 G ~ ~ N Q> C7 U ~ ~ ~ qNj M O .Q .t.1 7j G, y ..~ N ~ ~ ~ T A ~ "~ T3 ~ N ~ V ~ RS N .Ca ~ N '~ 7~ O N O N O N ~G.:r- a, ..r t0 t6 N ~ ~.N.~v lUli O Y ~ O ~ ~ O. tab O~ G N G O O ~ 3 ~ ~ O 3 j T ~ o- a ~ ~ .~c 3 =° L w O d v N ~- "'-a :r ~ o r~~~ m ~• m o c°v c°,7 ~ u' o °' ~ m v ~ L..'~ ~ ~ ~ N (V tU N ''O y ~ Y .- ~m~ `~?' o a: c ~i O -a ~ is c ~ .~ cuN~ ~ WN ~cOS o~ SOU ~~ Om~ a,.:~ N~ w v Z~ 7 p to O 0 0 ~L t? O ~- T'g a~a°., mN N M N O UOj1 ~ ~ ~ ~~~ ~ ~ t.. TQ~ t6 N N ~, ca rn N = a~ ;`' ca~Om ~csO ~0~... c N ~ cOa L 6 ~ „'ss o ~. Q Q .._ c ~a omo~ ~~ N 0 T G 'NO `l coo M N V OO -~ O a, ~fi~ 1 Q O ~~ .9 ,-~ ~ ~NrN