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File Documents.315 E Hyman Ave.0011-2023-BCOM (40)
<KAWNEER TEST REPORT TRANSMITTAL Date Generated: 9/20/2023 Project Name: Aspen Project Location: Aspen Company: KAWNEERDIRECT DEFAULT CUSTOMER(US) Requested By: Todd Reynolds Attached, please find Kawneer's standard test reports for project submittals. These reports have been witnessed and prepared by an independent testing agency and adhere to industry guidelines and recommendations. These tests are performed for customers, general contractors, architects, specifiers and building owners to compare performance characteristics of various products by all manufacturers. These test reports are generic in nature. The configurations and size of the tested specimens are dictated by industry standards and may not reflect the exact building requirements or conditions for the particular project. By providing a copy of this or these test reports, Kawneer Company, Inc. does not imply or guarantee that this or these products will achieve the same performance levels as recorded in this or these test reports when installed in a building or project. These performance levels were achieved in a laboratory setting under optimum conditions and are not representative of project conditions and may not be repeatable in the field. If field testing is required, it is encouraged that it be done as early as possible and is conducted per AAMA 502-08, or AAMA 503-08. Please reference Note below from these AAMA documents when performing field tests. Note: The default pressures used for water penetration resistance tests conducted in the field are not the same as the laboratory test pressure to allow for field conditions and test methods that vary from the laboratory test conditions and test methods. These conditions are primarily related to the ambient environmental conditions and the installation. The product performance is based on laboratory testing performed under controlled laboratory conditions. The temperature, wind, and barometric pressure conditions during a field test will typically vary from the standard laboratory conditions. The field installations also influence the product performance. Products tested in the laboratory are typically installed near-perfect for plumb, level, and square within a precision opening. Field test specimens, although installed within acceptable industry tolerances, are rarely perfectly plumb, level and square. Shipping, handling, acts of subsequent trades, aging and other environmental conditions all may have an adverse effect upon the performance of the installed specimen. A 1/3 reduction of the test pressure for field testing is specified as a reasonable adjustment for the differences between a laboratory test environment and a field test environment. Kawneer Company, Inc. RECEIVED 09/21/2023 ASPEN Andy Nag BUILDING DEPARTMENT Director, Customer Operations Page 1 of 1 A 2603 a= � 95438-127 Architectural Testing NFRC U-FACTOR, SHGC,VT, & CONDENSATION RESISTANCE COMPUTER SIMULATION REPORT Rendered to: KAWNEER COMPANY INC. SERIES/MODEL: 250T/350T/500T Entrance Door Report Number: E9999.04-116-45 Report Date: 03/03/16 130 Derry Court www.archtest.com . www.intertek.com/building p. 717.764.7700 York, PA 17406 f. 717.764.4129 a= A Architectural Testing NFRC U-FACTOR, SHGC,VT, & CONDENSATION RESISTANCE COMPUTER SIMULATION REPORT Rendered to: KAWNEER COMPANY INC. 555 Guthridge Court Norcross, Georgia 30092 Report Number: E9999.04-116-45 Simulation Date: 03/03/16 Report Date: 03/03/16 Project Summary: Architectural Testing, Inc., an Intertek Company (Intertek-ATI) was contracted to perform U- Factor, Solar Heat Gain Coefficient, Visible Transmittance, and Condensation Resistance* computer simulations in accordance with the National Fenestration Rating Council (NFRC). The products were evaluated in full compliance with NFRC requirements to the standards listed *NFRC's Condensation Resistance rating is NOT equivalent to a Condensation Resistance Factor (CRF) determined in accordance with AAMA 1503. Standards: ANSI/NFRC 100-2014: Procedure for Determining Fenestration Product U-Factors ANSI/NFRC 200-2014: Procedure for Determining Fenestration Product Solar Heat Gain Coefficient and Visible Transmittance at Normal Incidence NFRC 500-2014: Procedure for Determining Fenestration Product Condensation Resistance Values Software: Frame and Edge Modeling: THERM 6.3.46 Center-of-Glass Modeling: WINDOW 6.3.74 Total Product Calculations: WINDOW 6.3.74 Spectral Data Library: IGDB 45.0 Simulations Specimen Description: Series/Model: 250T/350T/500T Entrance Door Type: Swinging Door, Single Leaf Entrance Door Frame Material: AT Aluminum w/Thermal Breaks -All Members Sash Material: AT Aluminum w/Thermal Breaks -All Members Standard Size: 960mm x 2090mm 130 Derry Court www.archtest.com . www.intertek.com/building p. 717.764.7700 York, PA 17406 f. 717.764.4129 • E9999.04-116-45 arcn�ci resr��g Page 2 of 11 Modeling Assumptions/Technical Interpretations: 1) To prevent air infiltration, tape was applied to all interior sash crack locations. 2) This product is available in either a painted or anodized finish. These two finish types maybe grouped in accordance with ANSI/NFRC 100-2014, Section 4.2.1.L. The painted finish was simulated since it is the worst case (highest emissivity). The test sample was anodized aluminum. Specialty Products Table: The specialty products method allow the manufacturer to determine the overall product SHGC and VT for any glazing option. The center of glass SHGC and/or VT must be determined using WINDOW 6.3.74. The method gives overall product SHGC and VT indexed on center of glass properties. All values used in the calculations are truncated to six decimal place precision. 250T Entrance Door No Dividers Dividers < 1 Dividers > 1 SHGCO 0.023571 0.026284 0.028784 SHGC1 0.589561 0.509318 0.435375 VTO 0.000000 0.000000 0.000000 VT1 0.565990 0.483035 0.406591 350T Entrance Door No Dividers Dividers < 1 Dividers > 1 SHGCO 0.025907 0.028513 0.030905 SHGC1 0.545633 0.468579 0.401236 VTO 0.000000 0.000000 0.000000 VT1 0.519726 0.440066 0.366917 500T Entrance Door No Dividers Dividers < 1 Dividers > 1 SHGCO 0.029397 0.031826 0.034041 SHGC1 0.476513 0.409506 0.361077 VTO 0.000000 0.000000 0.000000 VT1 0.447116 0.372867 0.305130 SHGC = SHGCO + SHGCc (SHGC1 - SHGCO) VT =VTO +VTc (VT1 - VTO) Validation Matrix: The following products are part of a validation matrix. Only one is required for validation testing. Product Line Report Number None - • E9999.04-116-45 Page 3of11 Architectural Testing Spacer Option Description Sealant Spacer Type Primary Secondary Code Aluminum Dual Seal Spacer Butyl Rubber Butyl Rubber Al-D Gas Filling Technique Description Fill Type Method 84.48% Xenon Single Probe Timed 76.14%Argon Single Probe Timed 88.47% Argon Single Probe Timed 78.55%Argon Single Probe Timed 78.10% Krypton Single Probe Timed 96.76%Argon Single Probe Timed 64.98% Argon Single Probe Timed 74.70%Argon Single Probe Timed 60.78% Argon Single Probe Timed 62.43%Argon Single Probe Timed 86.02% Argon Single Probe Timed 81.60%Xenon Single Probe Timed 94.54% Xenon Evacuated Chamber 76.87%Krypton Single Probe Timed 71.53%Xenon Single Probe Timed 76.42% Krypton Single Probe Timed 66.65%Xenon Single Probe Timed 82.13% Xenon Single Probe Timed Edge-of-Glass Construction Interior Condition EPDM/Polypropylene Gasket Between Aluminum Glazing Bead and Glass Exterior Condition EPDM/Polypropylene Gasket Between Aluminum Glazing Bead and Glass Weatherstripping Type Quantity Location Vinyl Gasket 1 Row Header/Jambs: Sash Perimeter ,Sweep Gasket 2 Rows Threshold Frame/Sash Materials Finish Interior Painted Aluminum Exterior Painted Aluminum a= A Architectural Testing E9999.04-116-45 Page 4 of 11 NFRC 100/200/500 Summary Sheet 250T/350T/500T Entrance Door .- N en I^ U q �--� C N C M C W •U 4 •V r1.+ •V r1.+ •V 1 y 6 �, F� r F� r F� r F� y a C7 a © a C7 a. C7 a Fi vD C7 Solar Heat Gain Coefficient(SHGC) Visible Transmittance(VT) Condensation U-Factor Grids(None/<1/>=1) Grids(None/<1/>=1) Resistance 1 250T Entrance Door: COG=0.4400 0.222 0.500 0.225 XEN84 CL A 1-D N U-Factor 0.60 SHGC(N) _ 0.41 VT(N) 0.42 CR 36 2 250T Entrance Door: COG=0.4200 0.236 0.500 0.225 J.__ -TARG76 0.654(#2) RC A 1-D N U-Factor 0.59 SHGC(N) 0.22 VT(N) 0.18 CR 36 3 250T Entrance Door: COG=0.4000 0.223 0.500 0.225 ARG88 0.571(#2) CL Al-D N U-Factor 0.58 SHGC(N) 0.16 VT(N) 0.09 CR 36 4 250T Entrance Door: COG=0.3800 0.236 0.500 0.225 ARG79 0.465(#2) RC AI-D N _U-Factor 0.57 SHGC(N) 0.14 VT(N) 0.08 CR 36 5 250T Entrance Door: COG=0.3600 0.221 0.500 0.225 KRY78 0.406(#2) SR AI-D N U-Factor 0.56 SHGC(N) 0.14 VT(N) 0.10 CR 36 6 250T Entrance Door: COG=0.3400 0.230 0.500 0.225 L ARG97 0.331(#2) CL Al-D N U-Factor 0.55 SHGC(N) 0.12 VT(N) 0.07 CR 36 7 250T Entrance Door: COG=0.3200 0.223 0.500 0.225 ARG65 0.215(#2) CL AI-D N U-Factor 0.54 SHGC(N) 0.37 VT(N) 0.42 CR 36 8 250T Entrance Door: COG=0.3000 0.233 0.500 0.225 ARG75 0.166(#2) CL Al-D N U-Factor 0.53 SHGC(N) 0.27 VT(N) 0.30 CR 37 9 250T Entrance Door: COG=0.2800 0.223 0.500 0.225 ARG61 0.087(#2) I CL Al-D N U-Factor 0.51 SHGC(N) 0.33 VT(N) 0.43 CR 37 10 250T Entrance Door: COG=0.2600 0.223 0.500 0.225 ARG62 0.035(#2) CL Al-D N U-Factor 0.50 SHGC(N) 0.24 VT(N) I 0.40 CR 37 a= A Architectural Testing E9999.04-116-45 Page 5 of 11 NFRC 100/200/500 Summary Sheet 250T/350T/500T Entrance Door -, N en . ^ U q - 0 e4 n M 0 w s. U r1.+ V ,i- V ram.+ U -= c C. �, E- y 6 3 E- 3 E- 3 E- y 0 0 0 t 0 0 0 0 O C p. a C7 a. © a C7 a C7 a F� vk C7 Solar Heat Gain Coefficient(SHGC) Visible Transmittance(VT) Condensation U-Factor Grids(None/<1/>=1) Grids(None/<1/>=1) Resistance 11 250T Entrance Door: COG=0.2400 0.223 0.500 0.223 ARG86 0.035(#2)/0.035(#3) I CL Al-D N U-Factor 0.49 SHGC(N) 0.23 _ VT(N) 0.36 CR 37 12 250T Entrance Door: COG=0.2200 0.223 0.500 0.223 XEN82 0.018(#2)/0.018(#3)-JCL AI-D N U-Factor 0.48 SHGC(N) 0.17 VT(N) 0.29 CR 37 13 250T Entrance Door: COG=0.2000 0.223 0.500 0.223 I XEN95 0.018(#2)/0.018(#3) I CL AI-D N U-Factor 0.47 SHGC(N) 0.17 VT(N) 0.29 CR 37 14 250T Entrance Door: COG=0.1800 0.223 0.250 0.003 0.250 0.221 IKRY77/AIR o.ois(#2)/0.76(#3)/o.ii(#4)/o.o2s(#s) CL AI-D N U-Factor 0.46 SHGC(N) 0.16 VT(N) 0.25 CR 37 15 250T Entrance Door: COG=0.1600 0.223 0.250 0.003 0.250 0.223 XEN72/AIR 0.018(#2)/0.76(#3)/0.11(#4)/0.018(#s) CL AI-D N U-Factor 0.45 SHGC(N) 0.16 VT(N) 0.26 CR 37 16 250T Entrance Door: COG=0.1400 0.223 0.250 0.003 0.250 0.223 KRY76 o.o18(#2)/0.76(#3)/0.11(#4)/0.018(#5) CL Al-D N •U-Factor 0.44 SHGC(N) 0.16 VT(N) .26 CR 37 17 250T Entrance Door: COG=0.1200 0.223 0.250 0.003 0.250 0.223 wool XEN67 o.ois(#2)/0.76(#3)/0.11(#4)/0.018(#5) CL Al-D N U-Factor 0.43 SHGC(N) 5. VT(N) 0.26 CR 37 18 250T Entrance Door: COG=0.1000 0.223 0.250 0.003 0.250 0.223 XEN82 o.o18(#2)/0.76(#3)/0.11(#4)/0.018(#5) CL Al-D N U-Factor 0.42 SHGC(N) 0.15 VT(N) 0.26 CR 37 19 350T Entrance Door: COG=0.4400 0.222 0.500 0.225 XEN84 CL AI-D N U-Factor 0.60 SHGC(N) 0.38 VT(N) 0.38 CR 36 20 350T Entrance Door: COG=0.4200 0.236 0.500 0.225 ARG76 0.654(#2) RC Al-DI N U-Factor 0.59 SHGC(N) 0.20 VT(N) 0.17 CR 36 a= A Architectural Testing E9999.04-116-45 Page 6 of 11 NFRC 100/200/500 Summary Sheet 250T/350T/500T Entrance Door .- N en I^ U q �--� C N C M q W U r1.+ V ,i- V ram.+ co co Cc FE- r E- r E- r E- y 6y eCa CO t CI CO C o C p. ^O a C7 a © a C7 a C7 a F� vk C7 Solar Heat Gain Coefficient(SHGC) Visible Transmittance(VT) Condensation U-Factor Grids(None/<1/>=1) Grids(None/<1/>=1) Resistance 21 350T Entrance Door: COG=0.4000 0.223 0.500 0.225 I ARG88 0.571(#2) CL Al-D N U-Factor 0.59 SHGC(N) - 0.15 VT(N) 0.09 CR 37 22 350T Entrance Door: COG=0.3800 0.236 0.500 0.225 I ARG79 0.465(#2) RC Al-D N U-Factor 0.58 SHGC(N) 0.13 _ VT(N) 0.08 CR 37 23 350T Entrance Door: COG=0.3600 0.221 0.500 0.225 J._ KRY78 0.406(#2) SR Al-D N U-Factor 0.57 SHGC(N) 0.13 VT(N) 0.09 CR 37 24 350T Entrance Door: COG=0.3400 0.230 0.500 0.225 ARG97 0.331(#2) CL AI-D N U-Factor 0.56 SHGC(N) 0.12 VT(N) 0.07 CR 37 25 350T Entrance Door: COG=0.3200 0.223 0.500 0.225 ARG65 0.215(#2) CL AI-D N U-Factor 0.55 SHGC(N) 0.35 VT(N) 0.38 CR 37 26 350T Entrance Door: COG=0.3000 0.233 0.500 0.225 -JARG75 0.166(#2) CL Al-D N U-Factor 0.54 SHGC(N) 0.26 VT(N) 0.28 CR 37 27 350T Entrance Door: COG=0.2800 0.223 0.500 0.225 ARG61 0.087(#2) CL AI-D N U-Factor 0.53 SHGC(N) 0.31 VT(N) 0.40 CR 37 28 350T Entrance Door: COG=0.2600 0.223 0.500 0.225 ARG62 0.035(#2) CL Al-D N U-Factor 0.52 SHGC(N) 0.23 VT(N) 0.36 CR 37 29 350T Entrance Door: COG=0.2400 0.223 0.500 0.223 ARG86 0.035(#2)/0.035(#3) I CL I AI-D N U-Factor 0.51 SHGC(N) 0.22 VT(N) 0.33 CR 37 30 350T Entrance Door: COG=0.2200 0.223 0.500 0.223 XEN82 0.018(#2)/0.018(#3) CL Al-D N U-Factor 0.50 SHGC(N) 0.16 VT(N) 0.27 CR 37 a= A Architectural Testing E9999.04-116-45 Page 7 of 11 NFRC 100/200/500 Summary Sheet 250T/350T/500T Entrance Door .--- N M ^ U q - q N C M q W s. co r1.+ co ,i- co ram.+ co -= co C. �, E- y �' F. r3 E- r3 E- r3 E- y eCC et et es et O •C p. ^- a C7 a. © a C7 a C7 a F� vk C7 Solar Heat Gain Coefficient(SHGC) Visible Transmittance(VT) Condensation U-Factor Grids(None/<1/>=1) Grids(None/<1/>=1) Resistance 31 350T Entrance Door: COG=0.2000 0.223 0.500 0.223 XEN95 0.018(#2)/0.018(#3) CL AI-D N U-Factor 0.49 SHGC(N) _ 0.16 VT(N) 0.27 CR 37 32 350T Entrance Door: COG=0.1800 0.223 0.250 0.003 0.250 0.221 KRY77/AIR 0.018(#2)/0.76(#3)/0.11(#4)/0.028(45) CL Al-D N U-Factor 0.48 SHGC(N) 0.15 VT(N) 0.23 CR 37 33 350T Entrance Door: COG=0.1600 0.223 0.250 0.003 0.250 0.223 XEN72/AIR o.o18(#2)/o.76(#3)/o.11(#4)/o.o38(#5) CL Al-D N U-Factor 0.47 SHGC(N) 0.15 _ VT(N) 0.24 CR 37 34 350T Entrance Door: COG=0.1400 0.223 0.250 0.003 0.250 0.223 KRY76 o.ois(#2)/0.76(#3)/o.11(#4)/o.o18(#5) CL Al-D N U-Factor 0.46 SHGC(N) 0.15 VT(N) 11,24 CR 37 35 350T Entrance Door: COG=0.1200 0.223 0.250 0.003 0.250 0.223 XEN67 0.018(#2)/0.76(#3)/0.11(#4)/0.018(#5) CL Al-D N U-Factor 0.45 SHGC(N) 0.15 VT(N) 0.24 CR 37 36 350T Entrance Door: COG=0.1000 0.223 0.250 0.003 0.250 0.223 XEN82 o.ois(#z)/o.76(#3)/o.ii(#4)/o.ois(#5) CL Al-D N U-Factor 0.44 SHGC(N) 0.15 VT(N) 0.24 CR 37 37 SOOT Entrance Door: COG=0.4400 0.222 0.500 0.225 XEN84 CL Al-D N U-Factor 0.61 SHGC(N) 0.34 VT(N) # 0.33 CR 37 38 SOOT Entrance Door: COG=0.4200 0.236 0.500 0.225 ARG76 0.654(#2) RC A 1-D N U-Factor 0.61 SHGC(N) 0.18 VT(N) 0.15 CR 37 39 SOOT Entrance Door: COG=0.4000 0.223 0.500 0.225 ARG88 0.571(#2) CL Al-D N U-Factor 0.60 SHGC(N) 0.13 VT(N) 0.07 CR 37 40 SOOT Entrance Door: COG=0.3800 0.236 0.500 0.225 ARG79 0.465(#2) RC Al-D N U-Factor 0.59 SHGC(N) 0.07 CR 37 a= A Architectural Testing E9999.04-116-45 Page 8 of 11 NFRC 100/200/500 Summary Sheet 250T/350T/500T Entrance Door .- N en I^ U q �--� C N C M q W U r1.+ V ,i- V ram.+ co co C. FE- r E- r E- r E- y 6y 0:1 CO t CI CO C o C P. p. ^O a 0a © a 0a 0a F� vk 0 Solar Heat Gain Coefficient(SHGC) Visible Transmittance(VT) Condensation U-Factor Grids(None/<1/>=1) Grids(None/<1/>=1) Resistance 41 500T Entrance Door: COG=0.3600 0.221 0.500 0.225 KRY78 0.406(#2) SR Al-D N U-Factor 0.58 SHGC(N) _ 0.12 VT(N) 0.08 CR 37 42 SOOT Entrance Door: COG=0.3400 0.230 0.500 0.225 ARG97 0.331(#2) CL AI-D N U-Factor 0.57 SHGC(N) 0.11 VT(N) 0.06 CR 37 43 SOOT Entrance Door: COG=0.3200 0.223 0.500 0.225 II ARG65 0.215(#2) CL Al-D N U-Factor 0.57 SHGC(N) 0.31 VT(N) 0.33 CR 37 44 SOOT Entrance Door: COG=0.3000 0.233 0.500 0.225 --TARG75 0.166(#2) CL AI-D N U-Factor 0.56 SHGC(N) 0.23 VT(N) 0.24 CR 37 45 SOOT Entrance Door: COG=0.2800 0.223 0.500 0.225 ARG61 0.087(#2) CL AI-D N U-Factor 0.55 SHGC(N) 0.27 VT(N) 0.34 CR 37 46 SOOT Entrance Door: COG=0.2600 0.223 0.500 0.225 -TARG62 0.035(#2) CL Al-D N U-Factor 0.54 SHGC(N) 0.20 VT(N) 0.31 CR 37 47 SOOT Entrance Door: COG=0.2400 0.223 0.500 0.223 ARG86 0.035(#2)/0.035(#3) CL Al-D N U-Factor 0.53 SHGC(N) 0.19 VT(N) 0.28 CR 37 48 SOOT Entrance Door: COG=0.2200 0.223 0.500 0.223 XEN82 0.018(#2)/0.018(#3) CL Al-D N U-Factor 0.53 SHGC(N) 0.14 VT(N) 0.23 CR 37 49 SOOT Entrance Door: COG=0.2000 0.223 0.500 0.223 XEN95 0.018(#2)/0.018(#3) CL AI-D N U-Factor 0.52 SHGC(N) ! 0.14 VT(N) 0.23 CR 37 SO SOOT Entrance Door: COG=0.1800 0.223 0.250 0.003 0.250 0.221 KRY77/AIR o.o1802)/0.76(#3)/0.11(a4)/0.028(#5) CL Al-D N U-Factor 0.51 SHGC(N) 0.14 VT(N) 0.20 CR 38 a= A Architectural Testing E9999.04-116-45 Page 9 of 11 NFRC 100/200/500 Summary Sheet 250T/350T/500T Entrance Door - N en . ^ CA CA CA CA U q - q N n M q w sa U r1.+ V ,i- V ram.+ U -= r3 r3 r3 Q. e S S S S y � 03 et 0 t 0 0 0 0 O C p. ^- a (.7 a C7 a C7 a (.7 a F� v4 (.7 Solar Heat Gain Coefficient(SHGC) Visible Transmittance(VT) Condensation U-Factor Grids(None/<1/>=1) Grids(None/<1/>=1) Resistance 51 500T Entrance Door: COG=0.1600 0.223 0.250 0.003 0.250 0.223 IXEN72/AIR o.ois(#z)/o.76(#3)/o.11(#4)/o.o18(#5) CL AI-D N U-Factor 0.50 SHGC(N) 0.14 _ VT(N) 0.20 CR 38 52 500T Entrance Door: COG=0.1400 0.223 0.250 0.003 0.250 0.223 KRY76 0.018(#2)/0.76(#3)/0.11(#4)/0.018(45) CL Al-D N U-Factor 0.49 SHGC(N) 0.13 VT(N) 0.20 CR 38 53 SOOT Entrance Door: COG=0.1200 0.223 0.250 0.003 0.250 0.223 I XEN67 o.o18(#2)/0.76(#3)/0.11(#4)/0.018(#5) CL Al-D N U-Factor 0.48 SHGC(N) 0.13 _ VT(N) 0.20 CR 38 54 500T Entrance Door: COG=0.1000 0.223 0.250 0.003 0.250 0.223 XEN82 o.o1s(#2)/o.76(#3)/o.11(#4)/o.o1s(#5) CL Al-D N U-Factor 0.47 SHGC(N) 0.13 VT(N) 0.20 CR 38 Architectural Testing E9999.04-116-45 Page 10 of 11 The Condensation Resistance results obtained from this procedure are for controlled laboratory conditions and do not include the effects of air movement through the specimen, solar radiation, and the thermal bridging that may occur due to the specific design and construction of the fenestration system opening. Ratings values included in this report are for submittals to an NFRC-licensed IA and are not meant to be used directly for labeling purposes. Only those values identified on a valid Certification Authorization Report (CAR) by an NFRC accredited Inspection Agency (IA) are to be used for labeling purposes. The ratings values were rounded in accordance to NFRC 601, NFRC Unit and Measurement Policy. Intertek-ATI is an NFRC accredited simulation laboratory and all simulations were conducted in full compliance with NFRC approved procedures and specifications. The values included in this report are not considered in compliance with ANSUNFRC 100, ANSUNFRC 200, and/or NFRC 500 unless the associated validation test requirements have been satisfied, as applicable. Intertek-ATI will service this report for the entire test record retention period. Test records that are retained such as detailed drawings, datasheets, representative samples of test specimens, or other pertinent project documentation will be retained by Intertek-ATI for the entire test record retention period. The test record retention end date for this report is March 3, 2020. Results obtained are simulated values and were secured by using the designated test methods. This report does not constitute certification of this product nor an opinion or endorsement by this laboratory. It is the exclusive property of the client so named herein and relates only to the product simulated. This report may not be reproduced, except in full, without the written approval of Intertek-ATI For INTERTEK-AT I: SIMULATED BY: REVIEWED BY: author 414t' 4i./.:3610/Xotida) OlgIbly Signed by:Afton M.Goodyear Digitally Signed by',Nristen Louder Allison M. Goodyear Kristen L. Louder Simulation Technician Senior Simulation Technician S imulator-In-Responsible-Charge AMG:amg E9999.04-116-45 Attachments(pages): This report is complete only when all attachments listed are included. Appendix A:Drawings and Bills of Material(33) •Architectural Testing E9999.04-116-45 Page 11 of 11 Revision Log Rev. # Date Page(s) Revision(s) .04R0 03/03/16 All Original Report Issued to Kawneer Company Inc.. This report produced from controlled document template ATI 00037,Revised 10/2/2012. All drawings and Bills of Material used to simulate this product are enclosed in this Appendix Appendix A E9999.04-116-45 Intertek Report#: E9999-116-45 • Date: 10/14/15 ,,..... Verified by: Quraen-'1 ,u�yw DESICCANT 0.015"1 LOOSE FILL \ \ z BUTYL RUBBER, , SEALANT I In '-' BUTYL RUBBER OR O . F SW-IC-ONE SEALANT 00 M IL 1 c ALUMINUM ALLOY el0.043" (ANODIZED) 0 0.085" / 0.016" VARIES DETAIL FOR THERMAL MODELING OF ALUMINUM SPACER (A I-D)