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File Documents.219 E Durant Ave.0130.2016 (16).ARBK
12355 E. CORNELL AVENUE • AURORA, COLORADO 80014 • PHONE: (303) 766-7100 • FAX: (303) 766-7104 March 8, 2017 Kevin Michelson David Johnston Architects 119 South Spring Street, Suite 203 Aspen, CO 81611 Re: Floor-Ceiling Assembly – STC and IIC Ratings Dancing Bear Penthouse, Aspen, Colorado Dear Kevin: It is our understanding that the City of Aspen has requested verification that the Dancing Bear Penthouse (DBPH) floor-ceiling assembly will meet STC 50 and IIC 50 code minimum requirements, per IBC 1207.2 and 1207.3. This letter is intended to address this concern, and we would be happy to speak directly with the building department, if necessary, at your direction. Floor-ceiling Assembly It is our understanding that the floor-ceiling assembly separating the penthouse from the residential units below consists of the following components: Finish Floor o Wood flooring (3/4” thick, glued-down) o Tile (Stone or porcelain) o Carpet Acoustical Underlayment (Recommended for hard finish flooring) o Wood – 3mm Sika AcouBond System (Sika SilentLayer03 w/ SikaBond-T53 adhesive) o Tile – 5mm Pliteq GenieMat RST-05 or equivalent 5” thick concrete topping slab 3-1/2” thick composite deck (concrete on metal pan deck) Steel Structure Minimum 3-1/2” (R-11) mineral fiber or fiberglass batt insulation Wire-suspended furring channels One layer 5/8” thick gypsum board We estimate the above assembly has an STC 60+ rating. We estimate the above assembly has an IIC 58-60+ rating with hard finish flooring and the recommended acoustical underlayment products. We estimate the above assembly has an IIC 65+ with carpet flooring. It is our professional opinion that the floor-ceiling assembly meets the STC 50 and IIC 50 minimum required by IBC 1207.2 and 1207.3. March 8, 2017 Page 2 Supporting Information We could not obtain test reports for the exact proposed assembly. However, our estimated STC and IIC ratings are based on our evaluation of test reports for similar assemblies, past project experience, and our professional judgment. Sika AcouBond The Riverbank Acoustical Laboratory tested the following assembly and achieved an STC 60 and IIC 59 (Test Reports RAL-TL-01-222 and RAL-IN01-12, attached): 0.875” Engineered Wood Sika AcouBond System 6” thick concrete slab 3-1/2” R-11 fiberglass batts Wire-suspended furring channels One layer 5/8” Type X gypsum board While this assembly is not exactly the same as the DBPH assembly, it is materially very similar, and we would expect our assembly’s STC and IIC ratings to test similar, if not slightly higher due to the increased concrete thickness. Sika also provided a field test report that achieved an FIIC 59 with hardwood flooring on Sika AcouBond on an 8” concrete slab, with no ceiling below. This result is well above the minimum FIIC/AIIC 45 field result required by the IBC, and adding a wire-suspended insulated ceiling below would only improve the performance further. Pliteq GenieMat RST-05 We have evaluated acoustical test reports for Pliteq GenieMat RST-05 with tile (See attached). The Intertek Acoustical Laboratory tested the following assembly and achieved an STC 60 and IIC 53 (Test Report F5689.17-113-11-R0, attached): Porcelain tile Laticrete Platinum 254 mortar bed Pliteq GenieMat RST-05 rubber acoustical underlayment Composite deck (4” total thickness, 2” concrete on 2” deep metal pan deck) No Insulation Wire-suspended furring channels One layer 5/8” Type X gypsum board Note that this assembly achieved an IIC 53 without insulation, and with less concrete thickness than our proposed assembly. We expect that the increased concrete thickness and insulation would improve the IIC rating by at least 5 points, to an estimated IIC 58-60+. March 8, 2017 Page 3 Comments If you have any questions or comments, please call us at (303) 766-7100. Sincerely, Prepared By: Reviewed By: Joe Erickson Jeff Geiler, P.E., INCE Acoustic Designer Principal/Acoustician Enclosures: Sika AcouBond Cutsheet and Acoustical Test Reports Pliteq GenieMat RST-05 Cutsheet and Acoustical Test Reports ConstructionRESULTS MAY DIFFER BASED UPON STATISTICAL VARIATIONS DEPENDING UPON MIXING METHODS AND EQUIPMENT, TEMPERATURE, APPLICATION METHODS, TEST METHODS, ACTUAL SITE CONDITIONS AND CURING CONDITIONS. Technical Data Chemical Base Polyethylene foam Density 1.87 lbs/ft3 (30 kg/m3 ) Thickness 1/8 in. (3 mm) Cut-Outs 5.6 cuts/ft2 (60 cuts/m2) Heat Conductivity 0.042 W/mK Footfall Sound Reduction up to 24 dB Sika® AcouBond®-System Elastic Bonding and Acoustical Dampening for Wood Floors Description The Sika AcouBond-System incorporates Direct Bond Technology with acoustic performance. The Sika AcouBond-System consists of SikaLayer-03, a 1/8” (3 mm) proprietary specially slotted foam mat, and the SikaBond-T53, unique permanently elastic, super strong, sound dampening ad- hesive that form a tenacious bond to wood flooring, plywood subfloors, concrete and other com- mon subfloor materials Uses The Sika AcouBond-System is used to bond structurally sound solid and engineered hardwood in new construction and renovations in residential, office, and industrial buildings as well as sales and show rooms. It is commonly used over in-floor radiant heating and on grade cement and gypsum- based slabs. Field testing demonstrates unmatched sound reductions. Advantages n Independently tested to – IIC 59 and STC 60 (see below) n Independently tested to – FIIC 59 and FSTC 59 (see below) n Extremely easy to install n Structurally bonds wood flooring to subfloor n SikaBond-T53 bonds solid wood flooring up to 8 in. (18 cm) wide and engineered planks up to 14 in. (36 cm) wide directly to concrete substrates. No limitations on maximum wood length. n Eliminates the extensive labor of installing cork underlayments n No need for sleepers and plywood over concrete- and gypsum-based subfloors n Innovative walk-on work method n Can reduce overall installation costs up to 30% n Suitable for bonding wood floors directly onto old ceramic tiles n Reduces stress on the substrate Green Rating Tests Approvals/Standards Sika AcouBond-System with SikaLayer-03: n Independently tested to - IIC 59 (ASTM E 492) and STC 60 (ASTM E 90) (6 “ concrete slab, 5/8 “ suspended gypsum ceiling) n Independently field tested to - FIIC 59 (ASTM E 1007) and FSTC 59 (ASTM E 336) (8 “ concrete slab, no suspended ceilings) n Reduction of Impact Sound Δ IIC = 24 (ASTM E 2179) Product Description - SikaLayer-03 Uses Specially designed, proprietary Polyethylene foam mat with symmetrically placed cut-outs to insert adhesive to achieve a high sound dampening effect. Advantages Dimensionally stable and pressure resistant Defined amount of adhesive consumption Low weight for transport Colors Gray Packaging 54.7 ft. x 4.92 ft. rolls = 269 ft2 (25 m2). 12 rolls per pallet Storage Conditions/ Unlimited if kept in dry conditions and protected from direct sunlight at temperatures between +50°F and Shelf Life +77°F (+10°C and +25°C). Product Data Sheet Edition 4.9.2015 Sika AcouBond System LEED® EQc 4.1 (100 g/L limit) SCAQMD, Rule 1168 (100 g/L limit) BAAQMD, Reg. 8, Rule 51 (120 g/L limit) passes passes passes PRIOR TO EACH USE OF ANY SIKA PRODUCT, THE USER MUST ALWAYS READ AND FOLLOW THE WARNINGS AND INSTRUCTIONS ON THE PRODUCT’S MOST CURRENT PRODUCT DATA SHEET, PRODUCT LABEL AND SAFETY DATA SHEET WHICH ARE AVAILABLE ONLINE AT HTTP://USA.SIKA.COM/ OR BY CALLING SIKA’S TECHNICAL SERVICE DE- PARTMENT AT 800.933.7452 NOTHING CONTAINED IN ANY SIKA MATERIALS RELIEVES THE USER OF THE OBLIGATION TO READ AND FOLLOW THE WARNINGS AND INSTRUCTIONS FOR EACH SIKA PRODUCT AS SET FORTH IN THE CUR- RENT PRODUCT DATA SHEET, PRODUCT LABEL AND SAFETY DATA SHEET PRIOR TO PRODUCT USE. ConstructionProduct Description - SikaBond-T53 Uses Bonds solid wood flooring up to 8” (18 cm) wide and engineered planks up to 14” (36 cm) wide directly to concrete substrates. No limitations on maximum wood length. Description n1-component, ready-to-use polyurethane adhesive nSikaBond-T53: Fast curing for early green strength and superior holding power Color White Packaging 20 oz (600 ml) unipacs, 20 unipacs per box Shelf-Life 12 months from date of production if stored in undamaged original sealed containers, in dry conditions and protected from direct sunlight at temperatures between +50°F and +77°F (+10°C and +25°C) Application Details - Sika AcouBond-System: 1 roll SikaLayer-03 + 1 box SikaBond-T53 = 269 SF (25 m2) Consumption Approximately 13.4 ft2 per sausage (1 box of 20 sausages cover 269 ft2). All cut-outs must be filled. Use application tip with triangular cut out to a 0.32 x 0.4 inch (8 x 10 mm) opening. Tips are included in the shipping carton. Tips can be reused. Do not discard. Allow adhesive residue to cure in the tip min. 24 hours and then remove. Substrate Quality Clean and dry, homogeneous, even, free from grease, dust and loose particles. Paint, laitance and other poorly adhering particles must be removed by mechanical means. Substrate Preparation SikaBond-T53 can generally be used without priming on properly prepared, structurally sound substrates - concrete, cement floors, chipboards, ceramic tiles plywood and hardwood. For on-grade sub-floors Sika recommends the use of Sika Primer MB for best protection against\ subfloor moisture – moisture testing is required by the wood flooring manufacturer for best results with the wood flooring products. Below grade applications are generally not recom- mended unless proper precautions are taken to protect the wood flooring from subfloor and in- room humidity extremes. Sika recommends the use of Sika Primer MB over any dry, gypsum- based sub-flooring to enhance surface strength. Preparation is a critical step in the installation process and will ensure a successful long term tenacious bond. All concrete, cement screed and gypsum based subfloors must be structurally sound, clean, dry, smooth; free of voids, projections, loose materials, oil, grease, sealers and other surface contaminants. The surface must be prepared by mechanical means, e.g. sanding, grinding, shotblasting, and clean thoroughly with an industrial vacuum. Remove laitance or weak areas mechanically. For application over ceramic tiles it is necessary to grind tile surfaces and clean thoroughly with an industrial vacuum. For substrates with old well bonded adhesive or adhesive residue use Sika Primer MB see Primer MB data sheet for installation instructions and proper details. If surface contains asphalt (cutback) adhesive follow the Resilient Floor Covering Institute “Recommended Work Practices” for removal. When the asphalt (cutback) adhesive is sufficiently removed use the Sika Primer MB to help promote adhesion to the subfloor – or use an industry approved levelling compound over the cutback residue. SikaBond-T53 will adhere to most common patching/levelling compounds. Due to differences in asphalt based adhesive types and performance capabilities, applicator must verify that preparation of the surface is suf- ficient prior to using Sika Primer MB or patch/level compound. For unknown substrates please contact Sika Technical Services for best practices at 800-933-SIKA. Technical Data RESULTS MAY DIFFER BASED UPON STATISTICAL VARIATIONS DEPENDING UPON MIXING METHODS AND EQUIPMENT, TEMPERATURE, APPLICATION METHODS, TEST METHODS, ACTUAL SITE CONDITIONS AND CURING CONDITIONS. Specific Weight 10 lbs/gal (1.2 kg/l) Tack-free Time 45-60 minutes at 73°F (23°C) and 50% RH Curing Rate 1/8 inch (3.0 mm) in 24 hours at 73°F (23°C) and 50% RH. For proper curing of the sealant, sufficient ambient moisture is necessary (this can be from substrate or air). Floor may be sanded 24 hours after installation and light foot traffic only is acceptable after 6-8 hours (depending on climatic conditions and adhesive layer thickness). Sag No Sag – holds body after gunning Service Temperature -40°F to +158°F, suitable for in-floor radiant heating Typical Mechanical Properties Shear Strength 174 psi, 1 mm adhesive thickness at 73°F(23°C) and 50% RH Tensile Strength 174 psi, cured at 73°F(23°C) and 50% RH Shore “A” Hardness 40 after 28 days at 73°F(23°C) and 50% RH Elongation at Break 500%, cured at 73°F(23°C) and 50% RH VOC (g/l) 48.3 PRIOR TO EACH USE OF ANY SIKA PRODUCT, THE USER MUST ALWAYS READ AND FOLLOW THE WARNINGS AND INSTRUCTIONS ON THE PRODUCT’S MOST CURRENT PRODUCT DATA SHEET, PRODUCT LABEL AND SAFETY DATA SHEET WHICH ARE AVAILABLE ONLINE AT HTTP://USA.SIKA.COM/ OR BY CALLING SIKA’S TECHNICAL SERVICE DE- PARTMENT AT 800.933.7452 NOTHING CONTAINED IN ANY SIKA MATERIALS RELIEVES THE USER OF THE OBLIGATION TO READ AND FOLLOW THE WARNINGS AND INSTRUCTIONS FOR EACH SIKA PRODUCT AS SET FORTH IN THE CUR- RENT PRODUCT DATA SHEET, PRODUCT LABEL AND SAFETY DATA SHEET PRIOR TO PRODUCT USE. Construction Application Conditions/Limits Substrate Temperature During laying and until SikaBond-T53 has fully cured substrate temperature should be greater than 60°F (15°C) and in case of floor heating, less than 70°F (20°C). Air Temperature Room temperature between 60°F (15°C) and 90°F (35°C). For ambient temperatures the standard construction rules are relevant. Follow all wood floor manufacturer’s acclimation and room temperature requirements. Substrate Humidity Moisture requirements are set forth to protect the wood flooring products that can expand and contract with different moisture levels. SikaBond-T53 is not affected by moisture or vapor transmission. The below guidelines are included to provide the best practices in moisture vapor testing that exists today. Permissible substrate moisture contents are listed on the below chart. For more information on the use of the CM method please contact Troy Corporation at 973-443-4200. The National Wood Flooring Association recommends the use of moisture testing devices that identify actual moisture content in percentages (%). For best results in measuring the moisture levels in cement based subfloor use the Tramex measuring device to find the highest reading in the application area and then run the CM method at that highest point to determine the worst case. As a general guideline for floors with no in-floor heating if the Tramex is below 4% the Sika Primer MB will not be necessary and between 4% and 6% Sika Primer MB will be required - however, the CM method must be used to make final determination of concrete moisture levels - use chart above. For moisture content and quality of substrates the guidelines of wood floor manufacturer must be observed. Relative Air Humidity Between 40% and 70% Application Instructions Application Method/ Roll out SikaLayer-03 mat on the properly prepared substrate, Tools parallel to the laying direction of the wood floor. The mat does not get glued to the subfloor – unless adhesive is used to keep the mat from sliding. The foam mat should be placed approximately 3⁄4” away from walls and approximately 3⁄4” away to any adjacent mat. This will allow for placement of both a perimeter adhesive bead and an adhesive bead between any two adjacent mats. To apply the adhesive a sausage-gun is required. Apply the adhesive with manual-or air-pressure-gun into all cut-outs with the supplied triangular nozzle. Also apply adhesive beads at room perimeters and between adjacent mat as mentioned above. Take care to place only enough adhesive to allow sufficient time to place wood into adhesive while the adhesive is still very wet. Filling of all cut-outs is a must. The nozzle must be held vertical to the substrate - 90 degree angle. Take care not to apply adhesive on top of the mat. Position wood boards and firmly press into the adhesive until they lay tight on the SikaLayer mat. The wood boards can then be joined together using a rubber mallet or hammer and an impact block. Follow the required distance from the wall to the wood floor in the laying instruction from the wood floor manufacturer. Spacers should be used to ensure perimeter space is maintained. When working at or near room perimeters, door ways or tight areas additional slots may be needed in the SikaLayer-03 mat to accommodate short edge pieces and to ensure enough adhesive to securely hold wood down. Use razor knife to make cut outs in mat the same size as existing pre-cut openings. Application Moisture level requirements using Tramex method (%) Moisture level requirements using CM method (%) 3/4” solid or engineered over concrete 4%2.5% 3/4” solid or engineered over concrete with Primer MB layer 6%4.0% 3/4” solid or engineered over in-floor heating over concrete 3%1.8% 3/4” solid or engineered over gypsum-based Tramex should not be used to measure gypsum 0.5% 3/4” solid or engineered over in-floor heating over gypsum- based Tramex should not be used to measure gypsum 0.3% PRIOR TO EACH USE OF ANY SIKA PRODUCT, THE USER MUST ALWAYS READ AND FOLLOW THE WARNINGS AND INSTRUCTIONS ON THE PRODUCT’S MOST CURRENT PRODUCT DATA SHEET, PRODUCT LABEL AND SAFETY DATA SHEET WHICH ARE AVAILABLE ONLINE AT HTTP://USA.SIKA.COM/ OR BY CALLING SIKA’S TECHNICAL SERVICE DE- PARTMENT AT 800.933.7452 NOTHING CONTAINED IN ANY SIKA MATERIALS RELIEVES THE USER OF THE OBLIGATION TO READ AND FOLLOW THE WARNINGS AND INSTRUCTIONS FOR EACH SIKA PRODUCT AS SET FORTH IN THE CUR- RENT PRODUCT DATA SHEET, PRODUCT LABEL AND SAFETY DATA SHEET PRIOR TO PRODUCT USE. Construction Fresh, uncured adhesive remaining on the wood floor surface must be removed immediately with Sika Equipment Cleaner, mineral spirits, or a standard industry cleaning solvent. Failure to do so could result in a dulled finish. The laying instructions of the wood floor manufacturer as well as standard construction rules must be observed throughout the installation process. Note: For Solid and Wide Engineered Hardwood applications: Sika recommends the use of clamps to keep joints tight – for most projects a set of 5 will be adequate. If bowed boards are expected, Sika recommends placing several rows of straight boards across length of room and allow to cure overnight – these will form starter rows that will act as anchor for the clamps. For moderately bowed boards – clamp boards from the starter row. Clamp each individual row or several rows – if clamping several rows this must be done while adhesive is still wet. Clamps can then be loosened until successive rows are place and clamped accordingly. Be careful not to over-tighten. Best practice is to leave clamps in place when work is stopped for the day. For severely bowed boards – cut boards down to shorter pieces so that bow is removed. For situations where wood flooring does not rest flat - Sika recommends as a best practice the use of weights to ensure intimate contact between the wood-adhesive-substrate. Leave clamps and/or weights on critical areas for a minimum of 12 hours. Clean Up All tools should be cleaned immediately after use with Sika Equipment Cleaner. Any adhesive that is permitted to cure on the tool will need to be removed by mechanical means. Use a dry towel and a good quality adhesive remover that will not damage the wood finish to remove adhesive from pre-finished wood surface before it cures. Finger prints or small amounts of adhesive residue can be removed immediately from pre-finished wood using adhesive remover. Remove any adhesive residue from hands using immediately soap and water or other commercial hand cleaner. Limitations n Sika AcouBond-System should be used with 2” (5 cm) wide or larger structurally sound solid hard- wood and structurally sound engineered hardwood that can be either floated or nailed or stapled. n SikaBond-T53: Bonds solid wood flooring up to 8” (18 cm) wide and engineered planks up to 14” (36 cm) wide directly to concrete substrates. n Minimum wood length 1’ (one foot) is required to ensure that wood spans 3 (three) adhesive strips for standard placement. No maximum wood length. n Structurally sound sufficient tongue and groove stability is necessary for this system. n Minimum application temperature 50°F n Sika recommends following the wood floor manufacturer’s recommendations, as to acclimation, maximum moisture content and application conditions. n Do not use on wet, contaminated or friable substrates. n Sika recommends the use of Portland Cement based patching and leveling compounds for best results. n Gypsum-based subfloors are very susceptible to excess moisture and will be degraded if exposed to excess moisture from below or above. n Do not use in areas subject to hydrostatic head or in areas subject to secondary source of moisture. n Do not use over concrete with curing compounds, sealers or other surface treatments that could impact the adhesion. n This adhesive will not prevent moisture related damage to wood flooring installations. n Subfloor should be level - do not use adhesive as a leveling agent. n Cutback or other asphalt based adhesives should be removed. n Chemically treated woods (ammonia, wood stain, timber preservatives, etc.) and woods with high oil con- tent must be tested for adhesion prior to application. n Adhesive should be kept above 60°F for best workability. n Sufficient ambient moisture is necessary for proper curing. n Solid wood applications are best performed by an experienced installer. n When bonding solid wood Sika recommends the use of straps to fully connect tongue and groove - espe- cially when wood pieces are not perfectly straight - a starter row may be appropriate to form a fixed loca- tion to tighten straps. n Installations over radiant heat require that slab temperature be kept below 70°F during installation and for 48 hours after installation - then raised slowly up to final desired temperature. Follow wood floor manufacturer’s temperature guidelines. Wood floors in noninsulated areas or areas without a damp proof membrane, must only be installed after the application of Sika Primer MB to control the moisture, if within product limitations. For detailed instructions consult the Product Data Sheets or contact our Technical Service Department. In case of chemically pre- treated types of wood floors (eg. ammonia, wood stain, timber preservative or woods that have been pre/ sealed on the back side) and woods with high oil content SikaBond should only be used if adhesion tests are run by applicator prior to starting application. Do not use on PE, PP, TEFLON, and certain plasticized synthetic materials. (Carry out pretrials). Some primers can negatively influence the adhesion of SikaBond (pretrials suggested). Do not expose SikaBond to alcohol; his will impact the curing of the SikaBond. PRIOR TO EACH USE OF ANY SIKA PRODUCT, THE USER MUST ALWAYS READ AND FOLLOW THE WARNINGS AND INSTRUCTIONS ON THE PRODUCT’S MOST CURRENT PRODUCT DATA SHEET, PRODUCT LABEL AND SAFETY DATA SHEET WHICH ARE AVAILABLE ONLINE AT HTTP://USA.SIKA.COM/ OR BY CALLING SIKA’S TECHNICAL SERVICE DE- PARTMENT AT 800.933.7452 NOTHING CONTAINED IN ANY SIKA MATERIALS RELIEVES THE USER OF THE OBLIGATION TO READ AND FOLLOW THE WARNINGS AND INSTRUCTIONS FOR EACH SIKA PRODUCT AS SET FORTH IN THE CUR- RENT PRODUCT DATA SHEET, PRODUCT LABEL AND SAFETY DATA SHEET PRIOR TO PRODUCT USE. ConstructionKEEP CONTAINER TIGHTLY CLOSED • KEEP OUT OF REACH OF CHILDREN • NOT FOR INTERNAL CONSUMPTION • FOR INDUSTRIAL USE ONLYAll information provided by Sika Corporation (“Sika”) concerning Sika products, including but not limited to, any recommendations and advice relating to the application and use of Sika products, is given in good faith based on Sika’s current experience and knowledge of its products when properly stored, handled and applied under normal conditions in accordance with Sika’s instructions. In practice, the differences in materials, substrates, storage and handling condi-tions, actual site conditions and other factors outside of Sika’s control are such that Sika assumes no liability for the provision of such information, advice, recommendations or instructions related to its products, nor shall any legal relationship be created by or arise from the provision of such information, advice, recommendations or instructions related to its products. The user of the Sika product(s) must test the product(s) for suitability for the intended application and purpose before proceeding with the full application of the product(s). Sika reserves the right to change the properties of its products without notice. All sales of Sika product(s) are subject to its current terms and conditions of sale which are available at www.sikausa.com or by calling 800-933-7452. Prior to each use of any Sika product, the user must always read and follow the warnings and instructions on the product’s most current Technical Data Sheet, product label and Material Safety Data Sheet which are available online at www.sikausa.com or by calling Sika's Technical Service Department at 800-933-7452. Nothing contained in any Sika materials relieves the user of the obligation to read and follow the warnings and instruction for each Sika product as set forth in the current Technical Data Sheet, product label and Material Safety Data Sheet prior to product use. Sika warrants this product for one year from date of installation to be free from manufacturing defects and to meet the technical proper- ties on the current Technical Data Sheet if used as directed within shelf life. User determines suitability of product for intended use and as- sumes all risks. Buyer’s sole remedy shall be limited to the purchase price or replacement of product exclusive of labor or cost of labor. NO OTHER WARRANTIES EXPRESS OR IMPLIED SHALL APPLY INCLUDING ANY WARRANTY OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE. SIKA SHALL NOT BE LIABLE UNDER ANY LEGAL THEORY FOR SPECIAL OR CONSEQUENTIAL DAMAGES. SIKA SHALL NOT BE RESPONSIBLE FOR THE USE OF THIS PRODUCT IN A MANNER TO INFRINGE ON ANY PATENT OR ANY OTHER INTELLECTUAL PROPERTY RIGHTS HELD BY OTHERS. Visit our website at www.sikausa.com 1-800-933-SIKA NATIONWIDE Regional Information and Sales Centers. For the location of your nearest Sika sales office, contact your regional center. Sika Corporation Sika Canada Inc. Sika Mexicana S.A. de C.V. 201 Polito Avenue 601 Delmar Avenue Carretera Libre Celaya Km. 8.5Lyndhurst, NJ 07071 Pointe Claire Fracc. Industrial BalvaneraPhone: 800-933-7452 Quebec H9R 4A9 Corregidora, QueretaroFax: 201-933-6225 Phone: 514-697-2610 C.P. 76920 Fax: 514-694-2792 Phone: 52 442 2385800 Fax: 52 442 2250537 Health and Safety Information Caution WARNING. COMBUSTIBLE, IRRITANT, SENSITIZER. Contains 1,2-Benzenedicarboxylic acid, di-C9- 11-branched alkyl esters, C10-rich (CAS:68515-49-1), Polyisocyanatprepolymer TDI based (CAS:57451- 08-8), titanium dioxide (CAS:13463-67-7), xylene (CAS:1330-20-7), ethylbenzene (CAS:100-41-4), and quartz (SiO2) (CAS:14808-60-7). Keep away from heat, sparks, electrical equipment, and open flame. DO NOT SMOKE. Use only in well ventilated areas. Harmful if inhaled in high concentrations. May cause skin/ eye irritation. May cause allergic respiratory reaction. May cause gastrointestinal disturbance if swallowed. Reports have associated repeated and prolonged exposure to some of the chemicals in this product with permanent brain, liver, kidney and nervous system damage. Intentional misuse by deliberate concentra- tion and inhalation of vapors may be harmful or fatal. WARNING! This product contains a chemical known in the State of California to cause cancer and birth defects or other reproductive harm. First Aid Eyes – Hold eyelids apart and flush thoroughly with water for 15 minutes. Skin – Remove contaminated clothing. Wash skin thoroughly for 15 minutes with soap and water. Inhalation – Remove to fresh air. In- gestion – Do not induce vomiting. Dilute with water. Contact physician. In all cases contact a physician immediately if symptoms persist. Handling & Storage Keep away from heat, sparks, sunlight, electrical equipment or flame. VAPORS MAY IGNITE AND EXPLODE. DO NOT SMOKE. Open doors and windows during use. Use adequate local and mechani- cal ventilation. Wear protective equipment (chemically resistant gloves/goggles/clothing) to prevent direct contact with skin and eyes. Use properly fitted NIOSH vapor cartridge respirator if ventilation is poor. Wash thoroughly with soap and water after use. Remove contaminated clothing after use. Store product in tightly sealed containers in a cool, dry well ventilated area at temperatures between 50°F and 73°F away from ignition sources. Use explosion-proof electrical (ventilating, lighting and material handling) equipment. Use non-sparking tools. Take precautionary measures against electrostatic discharges. To avoid fire or explosion, dissipate static electricity during transfer by grounding and bonding containers and equipment before transferring material. Clean Up In case of spill, eliminate all ignition and heat sources, if safe to do so. Ventilate area. Open doors and win- dows. Wear chemical resistant gloves/goggles/clothing. In absence of proper ventilation use properly fitted NIOSH respirator. Confine spill, collect using noncombustible absorbent material and place in properly sealed container. Dispose of excess product in accordance with applicable local, state and federal regulations. PRIOR TO EACH USE OF ANY SIKA PRODUCT, THE USER MUST ALWAYS READ AND FOLLOW THE WARNINGS AND INSTRUCTIONS ON THE PRODUCT’S MOST CURRENT PRODUCT DATA SHEET, PRODUCT LABEL AND SAFETY DATA SHEET WHICH ARE AVAILABLE ONLINE AT HTTP://USA.SIKA.COM/ OR BY CALLING SIKA’S TECHNICAL SERVICE DE- PARTMENT AT 800.933.7452 NOTHING CONTAINED IN ANY SIKA MATERIALS RELIEVES THE USER OF THE OBLIGATION TO READ AND FOLLOW THE WARNINGS AND INSTRUCTIONS FOR EACH SIKA PRODUCT AS SET FORTH IN THE CUR- RENT PRODUCT DATA SHEET, PRODUCT LABEL AND SAFETY DATA SHEET PRIOR TO PRODUCT USE. OF 1612 S. BATAVIA AVENUE IIT PiESEARCH INSTITUTE 63012:32.0101 GEN EVA, ILLINOIS 60134 FOUNDED Isla BY NALLACE CLEMENT SARINE FOIL: Eiger International, Ina Impact Sound Transmission Test RALTbt-IN01-12 ON, Three Layer Engineered Wood Floor VAth Sika® AcouHand System (3 mm) on a 6 Inch Concrete Floor With Suspended 518 Inch Gypsum Cm ing Page I of 4 CONDU=: 5 September 2o01 TFST METHOD The measurements reported below were made with all facilities and procedures in explicit conformity with the ASTM Designations E492-90 and E989-89, as wehl as other pertinent standards Itivechenk Acougisrnt Laboratories Ems been amisdited by the U.S. Department of Commerce, NaGonat Lrstitate of Standards and Technology (NIST) under the National Voluntary Laboratory Accreditation Program(NVLAP) for this test procedure. it description of the measuring technique is available separately. DESCRSPTION OF THE SPECHvMN The test specimen was designated by the client as a three layer engineered wood floor with Sika AcouBand System (3 arm) on a 6 incl concrete Hoar with suspended 518 inch gypsum ceiling. The overall LHmem iwrs of the speoanea wen; nomirmtly 4.27 m (168 ia) wide by 6.10 m (240 itt) long cud 425 mm (16.75 in.) thick. The specimen was constructed directly in the laboratory's 4.27 m (14 ft) by 6.10 m (20 ft) test opening and was sealed on the periphery (both sides) with a dense mastic The weight ofthe imtire specimen as calculated was 9,198 kg (20,277 lbs.1 an average of 353.5 ka (72.4 lbs/11). The transmissiaa area used in the calculations was 26 mT (280 8). The source and rewiring room tempaaftum at the time of the Lest were 23-L2'C (7312'q and. 57#3% relative humidit�. The source and receive reverberation roam volumes were 1303 m (4,598.8 H) and 91.6m (3,235.8 $f, reWeatively. The description of the specimen was as follows: From the top down, the floor consisted of 22 tans (0.875 in) thick wgineered flooring, 3 our. (0.118 in.) thick Slim Salem Layer foam mat with SllImBonde T53 edhrsi%q 152= (6 m) thiclrwim reinforced mnrselc, x229 amt (9 in.) deep plenum with 89 mm (3.5 irL) thick fiberglass iuvdation, and 16 mm (0.625 in-) thick Type X gypsam beard. A more detailed description of the test assembly appeals in the following sections. Tw. sport shoal m, he,aP��sotl sxsePl fn IWI,�IAourue wnaen spprcrm d NAL rnEeF91L19i1Wa3W •9 WE Amro o«SYm*eEsaevScs,wxeavrtr,®fve x[•surte,eolexo �Ie1YBA4N1IDSO9 PC9PJRINNCe OFN1Y RMERSPlCe, FJL Rrn PGCREnlTEn SY nEPARTMENr OF COMMERCE NATONALVOLONTARYLABOHATORY rylRr ACCRE07ATION FwO AM FOR SELE=TESTAIETHCDS FOR ACOUST{CS. W V THE LAnnHATnHY'S ACCREDITATION OR ANY OF lr`r REPORTS IN NO WAY CONSTITU7E5 OR IMPLIES pRODUCT CEATIFICAi1ON. APPROVAL, OR ENDORSEMENT EY WIST. OF 1512 5. BATAVIA AVENUE IIT RESEARCH INSTITUTE 8301232-9104 GENEVA, ILUNOIG 66134 FOURDEn 1918 9Y WALLACE CLEMENT SASINE Eigerlat=ational, InC. 5 September 2001 Three Layer Engineered V&od Floor RALTM-INOI-12 Page 2 oF4 The fmish floor consisted of 22 mm ({1.875 in) thick three layer engneered wood flooring provided as 152 mm (6 in.) wide by 2.44 rn (96 in.) long planks with squ tongue and groove on all four sides. Weight of the wood Boor was 253.3 kg (558.5 lbs). Sika AcouDond The Sika AcouBand system consisted ofthe Silm Silent Layer foam mat and the S'rkaBand T53 sound dampening oae mponent adhesive The 3 mm {0.118 ia) thick foam mat was provided in 1 m (39,4 4) wide nulls and included symmetrically placed cutouts to receive the adhesive. The cut outs as measured were 14 mm (0.56 in.) wide by 140 mm (5.5 in-) long on 170 mm (6.7 in.) centers in staggered rows on 100 mm (3.95 in.) centers. zhe Sikallond T53 adhesive was applied between the cutouts. The adbe-sive was allowed to cure per the client's rewmmendntioms in excess of 24 hours prior to testing. Weight of Ute AuntUond system was 18.9 kg (41.8 lbs). Concrete Floor and Ceiling Assembly The concrete slab sub-Beor consisted of teal nominally 610 mm (24 in.) wide by 4.23 m (166.5 in.) long by I52 min (6 in.) thick wire reinforced concrete slabs. Weight of the concrete slab was 6,599 kg (16,958 Its). Split drive pins were inserted into the bottom of the slabs on I22 m (48 im) centers and used to tie 12 gauge hangs wire for the suspended coiling. The hanger wires were tied to tilaw i'ar a nominal 229 man (9 ia) plenum depth from the bottom of the slabs to the tap of the ceiling. Cold rolled steel Larryitg charnels were tial to the hanger wines and eleven lengths of 24 gauge galveuized steel DWC channels (hat channels) were saddle tied perpendicular to the cold rolled channels with double strands of 18 gauge tie wire. The plenum between the sub -floor and the ceiling wataiued a single layer of 89 nun (3.5 in.) dick, R-1 I unfitted fiberglass insulatiun. The ceiling was 16 mm (0.625 in.) thick, Type X gypsum board attached to the DWC channel with 25 mm (f in.) Type S screws on 305 mm (12 in_) centers. Joints were treated with papertape embedded in all-pra-posejoint compound and screw heads were covered with compound. Weight of the gypsum board was 268.6 kg (592.5 lhs). Weight of the crazing assembly was 322.5 kg (711 lbs). Th ,open atria PW h. aepndvccd.., In hllf.withau4 the mMen agpl Mor RAL YXEPFJILTS npEw E. PdWE. 0 eN LYm rtlE S.l .Yd PLE"M,T6f9M.4R6fEHGl$ ASL—. iEHILRW c M, OinR 5PEE' ' xcf;FEotrea aY CE,�F?T:nE11T OF _GMr.".ERG=- nzi:oNAL VOLUNTAR'i LA-0RATOM ��e� ; iCLRECIT?TEf)H PADCRAO FOR dSlELTEE- <Si'dECISCCa Fcq 4CCL5:lC_. J 4m URCr T SY'S AeCR= -,VOR OP. '9 UFiT'4 TEST REPOR751N iqo Wv ! cUNl: _tr. JR L'.rt^EJ'_ PRPnaC? CS'TlF4G.:r,D,y, ?r>'=.GIRL U.=. e'InDNS '�1�IT 61' NEST. wo 1612 S, 3ATAVIA AVENUE ITT RESEARCH INSTITUTE 630/272-0104 GENEVA, ILLINOIS 60134 SAB F00NOEL aY VlAl,j,gCE GLEMF,Nr SgaiNE Eiger International, Inc. RALT6LTNOi-I2 5 September 200I a e 3 of TEST RESULTS Sound pressure levels at 113 octave iatetvals, normalized to ]0 square meters, are glvea in tabular farm The impact imuiation class, IIC, was computed in accordaiam witb ASTME989-a9 and ASTM E49240. FUD. In CL DEV FRED. Ln �I.L- DEV 100 61 0.52 8 800 37 '0.12 0 125 56 0.17 3 1000 32 0.14 0 160 52 036 0 1250 27 0.20 0 200 53 024 9 1640 22 0.16 0 250 56 034 3 2000 19 0.16 0 315 52 023 0 2500 17 0.16 0 400 47 0.18 0 3150 14 0.17 0 500 46 034 0 4000 11 020 0 630 42 416 0 5000 11 0.48 0 IIC=59 ABBREVIATION INDEX FREQ. —FREQUENCY, HERTZ, (cps) Ln =NORMALIZED IMPACT SOUNn PRESSURE LEVEL, dB C.L. = UNCERTADV'1'Y IN dB, FOR A 95% CONFIDENCE LMT DFV. =DEVIATION IIC =IMPACT INSULATION CLASS * =INDICATES ACORRECTION HAS BEEN APPLIED TODATA DUE TO BACK131LOOUN�DNOISE LEVELS Tested%y—L�— l_iL i Appmvsd by Dean Yctor David . Moyer Senior Experimentalist Laboratory Manager i mpo,t ebell not bB repmtlGnetl smyl in }LLII,MNONUe Xrtttm."—,.1P TRE Rfi ULT£bEPd pbOY[p}PLy pNLYTCnT 6AE'tl4CSIYPI£SVEL]SfEO MR N MEREA MI PZ6�GLS%IINIPL FOq PP%fkPVANCc OF MET PIL^4 EPMWEN. ACcRTEi ETn Rx 0EPl TIAENT OF LOMb1EAC;. NATIONAL�'Orll NFAAY `v-uka'',a- AZCRE3iTkTIOu MOGAA1 P07.. SELE=TEST N=, .DM 703 ACOQ3'.C_ T".S s. D DnAionrs ACLFE.R3TP.TIC:. OR tivY T E73T6'T EF^FT:-IN NPWA✓C KS'ATa. Dr Td PLIES FFODUC CEZID[ . eY ^E _ 1x72 S. 6ATAV]A AVENUE GENEVA, ILLINOIS 60134 R R LLJ 7- cmukl W F J 11J ng C7 C2 LLI 'G CL- O i ZD bi O ¢ En or IIT RESEARCH ;NSTiTUTE 5301232-0104 Pouflou 1918 2Y WAILACE CLEMENT SABINE IMPACT INSULATION REPORT RAL IN01--12 PAGC4or4 . .o. x � m LY[ LAW V -W -LMN MW =K 121 MM =5 ICO IM L2&2.CK ILUK%fK &M FREQUENCY (Hz) IMPACT SOUND PRESSURE LEVET, IMPACT INSULATION CLASS CONTOUR TIC = S9 Tn:o leponenoll n.[m.,ld.-.d rxcepl In f.lLwiMwn We..n .,,.1 & 9A1. Tff g.G Ll. REP GAIEG Pi[OVE .1P,LT CNLYIO S ERRC^ U4 YJClII'IC➢F RNERSNIA ..AOR. PQUI EI 1 Ii R5i111A1O FOR PEAFOW CE OF AM' lE45,y C�AE-173- eY EE5np-lraEi%T GF C21:ddatiCc HANG, joLj:H iT' LP.ao`nkY[;i', 5' _ u_Gzff uF J„H_�Ln'-✓.: On F='ZR WO'ri;:' G Ji GTES -T- I_. 512 S. BATAVlA AVENUE 11T RESEARCH INSTITUTE 690/232-01114 `,ENEVA, ILLINOIS 60134 FOIIJNCED 191E nY WALLACE CLEMENT SAMIJ{ FOIL Eiger International, Inc. Sound Transmission Loss Test ON: Three Layer Engineered Wood Floor With0]-222 SikaO Acounond System (3 mm) on a 6 Inch Concrete Floor With Suspended 518 Inch Crypsmn Ceiling PAX-]—P—F4 CONDUCTED: 5 September 2oui TEST METH` OD Unless otherwise designated, the measurements reported below were made with all facilities and procedures in explicit conforatity with the ASTM Designations E90-99 and E413-87, as well as other pertinent standards. 1liverbank Acoustical Laboratories has hear accredited by the U.S. Department of Commerce, National Instihne of Standards and Technology (MST) under the National VoWary Laboratory Accreditation Program (NVLAP) for this test prooedum. A description ofthe measuring technique is available separately. ESCRIPTI N OF THE SPECRvIEN The test specimen was designated by the djent as a three layer engineered wood floor with Sika Acnn$Ond Stem (3 mm) on a 6 inch concrete floor with suspended 518 inch gypsum ceiling. The overall dimensions ofthe specimen were nominally 4.27 In (168 m.) wide by 6.10 on (2413 im) long and 425 mm (16 75 in.) thick The specimen was constructed directly in the laboratoryJs 427 on (14 ft) by 6.10 on (20 R) test opening and was sealed on the periphery (both sides) with a dense mastic. ! Tha weight of the entire specimen as calculated was 9,198 kg (20,277 lbs.1 an avemga of 353.5 kg/m (714 lbs/R'). The transmission area used in the calculations was 26 mz (280 ft }. The source and receiving room temperatures at the time of the test were 23:LM (73t2� and 57-+3% uelative h2rrd it r_ The source and receive reverberation room m3 vohaaes were 130,3 (4,598.8 its} and 91.6 m (3,235.8 ft�, respectively. The description of the specimen was as fellows: From the top down, the floor consisted of 22 mm (0.875 in) thick engineered flooring, 3 mm (0,1I8 in.) thick SEm Silent Layer foam. mat with SikaBondO T53 adhesive, 352 mm (6 in.) thick wire reinforced concrete, a229 rum (9 in.) deep plenum with F9 mm (3.5 in.) thick fiberglass insulation, and 16 mm (0,625 in.) thick Type X gypsum board. A more detailed description of the test assembly appears in the fbHowing sections, TTia report egap rro� Gu repmtivicert epzpl M IUG. MllppN NE vnE?En Eppnxpl or aAL 71E P6VLl6 PEaOMEp TgOVE1PPLY ONLYTOIHE SPEGFG9NAPLEbV8Mg1E➢ fCR NFASVPEM EPfCP6 gE6PON'afCiYl'!E LSSVMEG f69 PFRF9PYINCE GF NiY RI@R SP FLINFJ� 4CCSEC:TFD Ev C_.^RhT MNT QF CnIMMZRCE' N: 1104-LVOLUNTARY LFEDF.AT,^, a, �• AeoRMITATICM PROD0AE FCC cELECTEDTSSTMETLClOa FOR ACOVSTiGS. THE LACC9A?Or"i :'S ACC9=3RAVC1: 09 AM Or iTST`ST REP OMS IN NOWAY Cc1i�n' r iLieS llh or.nm ¢-mnr�i.R E�i.Em e. rn�i .o-gh�bi .'IR tM111PLRIPiJTFY1JIST 1512 S. BATAVSA AVENUE OF 3ENEVA, ILLINOIS E0134 IiT RESEARCH INST1Ti1TE 6301232-01Oq FOUNOM Isla S, WALLACE CLEMENI SABINE Eiger international, ina. 5 September 2001 Three La er E.n 'neeaed ood Floor 2-1L01-222 Pa c2of4 The 5nisb floor consisted of 22 � (0,875 inJ thick itt�-ee {ay z �g�� wood flooring provided as 152 mm (6 fthewide by 249 m (96 in.) long planks with square tongue and groove on all four sides'Weght ofwood floor was 2533 kg (558.5 Ills), 5!ka A OuBund The Sika AatsuEand system coogisted sounddof the Sika SSent layer foam mat and the Sikal3and T53 damperriag one-oreponent adhesive. The 3 mm (0. i 18 La) thick faam mat was provided in i m (39.4 in.) wide rolls and included symmetrically placed esrt outs to receive the adbCsive The cut outs as romsmed were 14 mm (0.56 in.) wide by 140 mm (5.5 La) long on 170 mm (6.7 in.) centers in staggered rows on 190 mm (3.95 in.) rxn applied betweentem. The Sika$ond T53 adhesive was dee cutouts. The adhesive was allowed to care per the client's recommendations in Intap„5 of 24 bouts priorto testing, Weight afthe Acoullond system was 289 kg (41.a lbs). Concrete Flao end Ce lin Assemhl The poeorete slab sub -floor consisted of ten nominally 610 tom (24 ill-) wide by 4.23 m (1665 in.) long by I52 mue (6 4) thick wine reinforced concrete slabs_ Weight of the concrete slab was 8,599 kg (18,958 lbs). Split drive pins were inserted into the bottom of the slabs an 1.22 on (4B in.) centers and used to tie.. 12 gauge hanger wire for the suspended oelft. The hanger Wires were tied to allow for a nomind 229 mm (9 in-) Plenum depth from the bottom of the slabs to the top Of the cOilinon Cold rolled steel carrying channels yore tied to the hanger wires and eleven Lengths of 24 gauge galvanized steel ')WC channels (hat channels) were saddle tied perpendicular to the cold rolled ChInnels with double strands of 18 gauge tie wire. The plenum between the sub -floor and the ceiling contained a single layer of 89 mm (3.5 im) thick, R-11 MrAcod gbergl= inaels'dosi_ The Ceiling was 16 mrn (0.525 irt) thick, Type gypsum board attached to the DWC Charnel with 25 rare (I Jim) Type S screws on 305 mm (12 in,) centers_ Joints were treated with paper tape embedded in all-purposejoint Compound and screw, heads were covered with compound. Weight o£the gypsum board was 268.8 kg (592.5 lbs). Weight of the ceihRg assembly was 3225 kg (711 lbs). Thla mpon shallnetnemMdw pj iR 1ue. WL vMthew mxPWe Wa 7[E FFSVLT$REj9AlFL AB6PE6FPLP CXLYlO511P5PCOfIC$I F, ..FOR MFL$RRP1(71Lif0Ol3POf�1P11]IYIS4w'IIFIF➢ FOR PHR�E OF AM' p 1H SP ELI4FJ 1. Ac C.SEOITEa EY DEPART. MEhrr OF OOIAMERCS, NATIOIdAL yp L'J]rF.Rr 1-4903ATa.'.5' L.,i�i= �> ACCp EpRaTiChl PROGRAM FOR �ME1710nS FOR ACCVSTiCS, jr THE Lty$pRATOn{'S ACCREpRA7iOK OR AN1' OF IT'STT-� REPORTS IN NO WAY CON�ITnTrs 09 IMPLIES PF.Cpl1CT CECTIFIC: XN. APPAOYAL. OR ELDOR5EMEN i EY r4el OF 1512 S. BATAVIA AVENUE IIT RESEARCH INS T1-I'UTE ENEVA, ILLINOIS 66134 Eigerinternational, Inc. 5 September 20nI 6301232-p7pq FOUNDED 2S1g ay YJALLACE CLEMEN7 SABINE RALT^<TLo]- 2 Pae3o4 TEST RESULTS Sound transmission lass values are tabulated at the eighteen standard frequencies. A gaphia Presentation ofthe data and additionai information appaar on the Following pages. The precision of the TL tesi data is within the limits sec by the ASTM Standard E90-99. ERE -Q- TTL W—F FREO, TLICSL. DEF. 100 - 30 0.29 0 son 66 021 0 125 41 0.05 3 1000 70 0.2U 0 160 44 9.08 3 1250 74 0.20 0 200 45 0.10 5 I600 78 0.18 0 250 49 0.12 4 2000 80 0.16 0 3I5 48 0.10 8 2500 80 0.11 0 400 55 0.17 4 3150 86 0.13 0 500 58 0.22 2 4000 _ 89 0.11 0 630 62 016 0 5000 90 0.08 0 1 STC -60 ABBREVIATION ]NDF.% FREQ. = FREQUENCY, RERTZ, (cps) T.L. =TRANSMISSION LOSS,cM C.L. =UNCERTAINTYIN dB, FOR A95%CONFIDENCE LuvIIT DEF. = DEFICIENCIES, dB<STC CONTOUR STC —SOUND SION CLASS Tested- Approved by _ Dean Victar David L. Moyer Senior Experimentalist Laboratory Manager nu ma SIV it roi ha ropRtlwetl eNc¢ptI. Mrs waaoot A. xriBen epp I NAL ThEACSWS gPppf D MOVE APRTGNLTWTE 4PEOALSS SVBMRTEDEOA YFISJAEYQI[NOIBSSPOl6i®IIIV M MSUYF31 EOA PFJ{FRNYEeI pF RMTOINER SPEITAF}L ACCREDITED eYDEPAF?',ENT OF CONI FRnE. NA710WAL VOLINTAPY LABOAATaF` is Ir`� gCCRFp li471GI+FpIGRAIW FOR SEL-CTED TEST IAETRODa FON ACWSTICS. _I.jc J Zr P..E LABORATORY'S ACCF=DITAT ON OR ANY OF I7'9 TEST REPORTS IN NO WAS' CCN3 :P E_ nn 'a tn'2e nnnriV rYr IMS ftTlfhr e9OR.T.IA[ r.A rT_''. [IOFY.rNT FY NIST 1572 S. 13ATAVIA AVENUEof NEVA, ILLINOIS SM4 IIT RESEARrH INSTITUTE 630f42-0104 WALLACE C1-EMENTSAEINE TRANSMISSION LOSS REPORT RAL-TL©1-222 FhG� � OF 4 I (n EN Cly q ti z� N 74 H O H UJ (nir z se N 41 30 m = [m i 4W Em LDL Lm 'Zm 4R Reit talc LQ LS6 ZC] ¢S !M M LM ZDL L= SOt RCL FREQUENCY (Hz) TRANSMISSION LOSS SOUND TRANSMISSION CLASS CONTOUR T5s repon :half nm Lnftpm ,O except In IWI,wlQ oa IhC wrltlen appmw. ni nAL. lr5 gESLLIS PFPOAlkP P9pVF A,LT MYIG Yi1c 5PeGRCSNAPL{ }7/95iry7m Ppq yEy9pPENL,M p'p {IEGFOpPIPILT'4 V VM:L Fpq PPgFOkH�ryCE pe A`iY OTkER iPCLI!A&S. F�] rEU 2" el EPri F':12tJT Op Gp6i if R H rEi AL t -.r U iF.1' i - _ 1':' � 1 Jo C P,E❑R1!71 G: PROCPAIA FOP. 57:LEG ❑ I TF nn- Gf .0UPT C 'fr-_fIL°LAEOR-lOgY'SACCRSDJ TATltlli pll A'q'uFIT'STFST k,P�P.-Jg;r; VC YfAS x:a T, r', -;,T-,.; GenieMat® RST05 Sound Control Underlayment It’s not magic, it’s engineering.® ® © Pliteq Inc. 2017. The information provided is accurate to the best of our knowledge at the time of issue. However, we reserve the right to make changes when necessary without further notification. Suggested application may need to be modified to conform with local building codes and conditions. We cannot accept responsibility for products that are not used, or installed, to our specifications. All listed dimensions are nominal in imperial measure.www.pliteq.com02.17For Your Project Specific Questions T. 416.449.0049 | E. info@pliteq.com Product Specification Product Name:GenieMat RST05 Description: Robust reduced sound transmission mat made from 94% recycled rubber content used when superior sound control is required in multifamily housing, high-rises, or commercial buildings. Application: Flat, resilient underlayment that is used directly under a variety of floor finishes in wood, steel, and concrete construction, yielding exceptional results for impact sound insulation. Features and Benefits: • Significantly reduces impact sound • Mold, bacteria, fungi, and water resistant • Qualifies for LEED® points • Can be installed directly under hard surface or resilient floor coverings • FloorScore® certified Dimension:Rollgood: 4’ wide, 30’ long (1.2 m wide, 9.1 m long) Thickness:3/16” (nom. 5 mm) Roll Weight:120 lbs/roll (54.4 kg/roll) Roll Area:120 ft² (11.1 m²) Rolls/Pallet:16 Leadtime:2-3 weeks after receipt of order GenieMat® RST05 Sound Control Underlayment It’s not magic, it’s engineering.® ® © Pliteq Inc. 2017. The information provided is accurate to the best of our knowledge at the time of issue. However, we reserve the right to make changes when necessary without further notification. Suggested application may need to be modified to conform with local building codes and conditions. We cannot accept responsibility for products that are not used, or installed, to our specifications. All listed dimensions are nominal in imperial measure.www.pliteq.com Contact Us For Your Project Specific Questions T. 416.449.0049 | E. info@pliteq.com 02.17Technical Data Reduction of Impact Sound Pressure Level: (ASTM E492/E2179) • GenieMat RST05 tested over 6” concrete slab with vinyl plank floor covering, no ceiling, IIC 50, ∆IIC 21 dB • GenieMat RST05 tested over 6” concrete slab with 3/8” laminate wood floor covering, no ceiling, IIC 51 and ∆IIC 21 dB • GenieMat RST05 tested over 6” concrete slab with 12” x 12” ceramic tile, no ceiling IIC 50 and ∆IIC 21 dB • The floor-ceiling assembly must be tested in an accredited laboratory within the last 5 years. Sheet Weight: 1 lbs/ft² (4.8 kg/m²) Robinson Wheel Tile Test: (ASTM C627)Moderate commercial with tile Point Load Test for Crack Isolation Membranes: (ANSI 118.12) Exceeds pass criteria VOC Emissions: (ASTM 5116)Meets requirements for the California Department of Public Heath Criteria Puncture Testing When Installed Under Luxury Vinyl Tile: (ASTM F924) No change when compared to puncture failure limit of luxury vinyl tile tested without underlayment Resistance to Impact When Installed Under Luxury Vinyl Tile: (ASTM F1265) Luxury vinyl tile shows no signs of breaking of cracking and meets standard criteria Rolling Load Indentation When Installed Under Luxury Vinyl Tile: (ASTM F2753) Luxury vinyl tile shows no signs of indentation and plank separation for 12,500 cycles Temperature Stability:-40°C to +115°C (-40°F to +240°F)