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ASTM E 90 SOUND TRANSMISSION LOSS TEST REPORT
Rendered to:
UNIVERSAL PULTRUSIONS, LLC.
SERIES/MODEL: Universal Pultrusions
Fiberglass Door and Frame
TYPE: Single Side-Hinged Door System
Summary of Test Results
Data File No. Seals Description STC OITC
C3480.01A Inoperable Test: Door leaf sealed with duct seal on both sides 27 26
C3480.01B Operable Test: Pemko S773 frame perimeter and threshold 27 26
Reference should be made to Architectural Testing, Inc. Report No. C3480.01-113-11 for complete test specimen description. The complete test results are listed in Appendix B.
Architectural Testing
130 Derry Court York, PA 17406-8405 phone: 717-764-7700 fax: 717-764-4129 www.archtest.com
ACOUSTICAL PERFORMANCE TEST REPORT
Rendered to:
UNIVERSAL PULTRUSIONS, LLC. 100 Tillco Drive P.O. Box 1289
Marshall, Arkansas 72650 Report No: C3480.01-113-11 Test Date: 01/15/13 Report Date: 01/22/13 Record Retention End Date: 01/22/17 Test Sample Identification:
Series/Model: Universal Pultrusions Fiberglass Door and Frame Type: Single Side-Hinged Door System Overall Leaf Size: 35-3/4" by 83-1/4" by 1-3/4" Leaf Description: Fiberglass with Polyurethane Foam Core
Project Scope: Architectural Testing, Inc. was contracted by Universal Pultrusions, LLC. to conduct sound transmission loss tests on a Series/Model Universal Pultrusions Fiberglass Door and Frame, single side-hinged door system. A summary of the results is listed in the Test Results section, and the complete test data is included as Appendix B of this report. The sample was provided by the client. Test Methods: The acoustical tests were conducted in accordance with the following:
ASTM E 90-09, Standard Test Method for Laboratory Measurement of Airborne Sound Transmission Loss of Building Partitions.
ASTM E 413-10, Classification for Rating Sound Insulation.
ASTM E 1332-10a, Standard Classification for Rating Outdoor-Indoor Sound Attenuation. ASTM E 2235-04 (Reapproved 2012), Standard Test Method for Determination of Decay Rates for Use in Sound Insulation Test Methods.
Architectural Testing
130 Derry Court York, PA 17406-8405 phone: 717-764-7700 fax: 717-764-4129 www.archtest.com
C3480.01-113-11 Page 2 of 5
Test Equipment: The equipment used to conduct these tests meets the requirements of ASTM E 90. The microphones were calibrated before conducting sound transmission loss tests. The test equipment and test chamber descriptions are listed in Appendix A. Sample Installation: Sound transmission loss tests were initially performed on a filler wall that was designed to test door specimens. The filler wall achieved an STC rating of 69. The specimen plug was removed from the filler wall assembly. The door system was placed on a foam isolation pad in the test opening. Duct seal was used to seal the perimeter of the test specimen to the test opening on both sides. The interior side of the door frame, when installed, was approximately 1/4" from being flush with the receiving room side of the filler wall. A stethoscope was used to check for any abnormal air leaks around the test specimen prior to testing. The door leaf was opened and closed at least five times prior to testing. Test Procedure: The door was closed and latched for this test. The sound transmission loss tests were conducted in accordance with the ASTM E 90 test method using a single direction of measurement. One background noise sound pressure level and five sound absorption measurements were conducted at each of five microphone positions. Two sound pressure level measurements were made simultaneously in both rooms, at each of five microphone positions. The air temperature and relative humidity conditions were monitored and recorded during the background, absorption, source, and receive room measurements. Sample Descriptions:
Door Construction: Main Frame
Size 40" by 86"
Thickness 5-3/4"
Corners Mitered
Fasteners Keyed
Seal Method Glue
Material Fiberglass
Reinforcement None
Thermal Break Material N/A
Daylight Opening Size N/A N/A-Non Applicable
Architectural Testing
C3480.01-113-11 Page 3 of 5
Sample Descriptions: (Continued)
Leaf Materials:
Layers (outside to inside) Layer Description (material and thickness)
1 0.130" Fiberglass
2 1.505" Polyurethane foam
3 0.130" Fiberglass Comments: The sill was reinforced with a 1-7/16" by 1-1/2" polyurethane foam-filled fiberglass tube. The head was reinforced with a 5-3/4" by 1-1/2" polyurethane foam-filled fiberglass tube. Both tubes utilized the same thickness fiberglass as the door skins. The leaf stile edges were capped using 1/4" thick fiberglass.
Components:
TYPE QUANTITY LOCATION
Weatherstrip
Pemko S773 1 Row Frame perimeter and threshold at stop
Hardware
Lock set assembly 1 Lock rail
Hinge 3 Hinge jamb
Strike plate 1 Lock jamb
Fiberglass threshold 1 Sill
Drainage
No drainage
Sample Weights:
m2 ft2
2.22 23.89
Weight Per Unit Areakg lbs kg / m2 lbs / ft2
Leaf 34 76 15.53 3.18Frame 18 40 8.17 1.67
Overall Sample Area:
Sample Identification:Total Weight
Architectural Testing
C3480.01-113-11 Page 4 of 5
Comments: The client did not supply drawings on the Series/Model Universal Pultrusions Fiberglass Door and Frame, single side-hinged door system. The door was disassembled, and the components will be retained by Architectural Testing for four years. Photographs of the test specimen are included in Appendix C. Test Results: The STC (Sound Transmission Class) rating was calculated in accordance with ASTM E 413. The OITC (Outdoor-Indoor Transmission Class) was calculated in accordance with ASTM E 1332. A summary of the sound transmission loss test results on the Series/Model Universal Pultrusions Fiberglass Door and Frame, single side-hinged door system is listed below.
Summary of Test Results
Data File No. Seals Description STC OITC
C3480.01A Inoperable Test: Door leaf sealed with duct seal on both sides 27 26
C3480.01B Operable Test: Pemko S773 frame perimeter and threshold 27 26
The complete test results are listed in Appendix B. Flanking limit tests and reference specimen tests are available upon request. Architectural Testing will service this report for the entire test record retention period. Test records, such as detailed drawings, datasheets, representative samples of test specimens, or other pertinent project documentation, will be retained by Architectural Testing for the entire test record retention period. 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 specimen tested. This report may not be reproduced, except in full, without the written approval of Architectural Testing. For ARCHITECTURAL TESTING, INC: Kurt A. Golden Todd D. Kister Senior Technician - Acoustical Testing Laboratory Supervisor - Acoustical Testing KAG:jmcs Attachments (pages): This report is complete only when all attachments listed are included.
Appendix-A: Equipment description (1) Appendix-B: Complete test results (4) Appendix-C: Photographs (1)
Architectural Testing
C3480.01-113-11 Page 5 of 5
Revision Log Rev. # Date Page(s) Revision(s)
0 01/22/13 N/A Original Report Issue
This report produced from controlled document template ATI 00274, revised 04/09/12.
Architectural Testing
C3480.01 -113-11
Appendix A
Instrumentation:
Instrument Manufacturer Model DescriptionATI
Number
Date of
Calibration
Analyzer Hewlett Packard HP35670A Real time analyzer 004112 07/11 *
Data Acquisition Unit Agilent 34970A Data Acquisition Unit 62211 07/12
Receive Room
MicrophoneGRAS 40 AR 1/2" Microphone Y003246
Receive Room
PreamplifierGRAS 26 AK 1/2" Preamplifier Y003249 08/12
08/12
Source Room
MicrophoneGRAS 40 AR 1/2" Microphone Y003245 08/12
Microphone Calibrator Bruel & Kjaer Type 4228 Pistonphone Calibrator Y002816 02/12
Source Room
PreamplifierGRAS 26 AK 1/2" Preamplifier Y003248 08/12
Equalizer Rane RPE 228 Programmable Equalizer Y002180 N/A
Noise Source Delta Electronics SNG-1 Noise Generator Y002181 N/A
Receive Room
LoudspeakersRenkus-Heinz Inc. Trap Jr./9 Two, Loudspeakers
Y001784N/A
Y001785
Power Amplifiers Crown Xti 2000 Two, Amplifiers005769
N/A005770
Receive Room
Environmental IndicatorVaisala HMW60Y Temperature and Humidity Sensor 005066 09/12
Source Room
LoudspeakersRenkus-Heinz Inc. Trap Jr./9 Two, Loudspeakers
Y002649N/A
Y002650
Weather Station Davis InstrumentsVantagePRO
6150CWeather Station Y003257 05/12
Source Room
Environemental IndicatorVaisala HMW60Y Temperature and Humidity Sensor Y002653 03/12
*- Note: The calibration frequency for this equipment is every two years per the manufacturer's recommendation.
Test Chamber:
Volume Description
Receive Room 234 m3
(8291.3 ft3)
Rotating vane and stationary diffusers
Temperature and humidity controlled
Isolation pads under the floor
N/A-Non Applicable
Source Room 206.6 m3
(7296.3 ft3)
Stationary diffusers only
Temperature and humidity controlled
Maximum Size Description
TL Test Opening
4.27 m (14 ft) wide by
Vibration break between source and receive rooms
3.05 m (10 ft) high
Architectural Testing
Test Date 01/15/13
ATI No. C3480.01A
Client Universal Pultrusions, LLC.
Specimen
Operator Kurt Golden
Sample Area 2.22 m2
Filler Area 10.78 m2
Source Receive Specimen
Temp C 23 21 22
RH % 46 47 47
Bkgrd Absorp Source Receive Filler Specimen 95% No. of Trans
Freq SPL SPL SPL TL TL Conf Defi- Coef
(Hz) (dB) (m2) (dB) (dB) (dB) (dB) Limit ciencies Diff
80 39 5.6 91 69 32 20 2.4 - 6.5
100 38 5.6 93 71 38 17 2.9 - 14.0
125 37 5.6 97 72 45 22 1.9 0 16.4
160 39 4.9 97 73 48 21 1.8 0 20.3
200 37 4.9 102 76 58 22 0.9 0 28.7
250 35 5.3 102 75 60 23 0.8 0 30.3
315 31 5.6 103 74 66 24 0.7 0 34.7
400 29 5.5 103 73 68 26 0.7 0 34.6
500 26 5.9 104 72 68 28 0.4 0 32.7
630 24 5.7 105 72 69 29 0.4 0 33.2
800 22 5.7 105 71 71 31 0.4 0 33.9
1000 17 6.0 105 70 74 31 0.5 0 36.3
1250 19 6.5 104 66 72 33 0.4 0 32.1
1600 13 6.8 107 68 71 34 0.2 0 30.3
2000 7 7.3 106 66 72 34 0.4 0 30.6
2500 7 8.2 105 68 75 31 0.3 0 36.5
3150 6 9.8 106 75 77 25 0.4 6 44.8
4000 7 12.0 106 76 81 23 0.3 8 50.8
5000 7 15.2 105 70 84 27 0.5 - 49.6
STC Rating 27 (Sound Transmission Class)
Deficiencies 14 (Number of deficiencies versus contour curve)
OITC Rating 26 (Outdoor Indoor Transmission Class)
Notes: 1) Transmission loss coefficient differences less than 6 indicate the lower limit of the transmission loss for this specimen. These cells are
highlighted red.
2) Transmission loss coefficient differences between 6 and 15 indicate there has been a filler wall correction applied. These cells are
highlighted green.
3) Receive Room levels less than 5 dB above the background levels are highlighted in yellow.
SOUND TRANSMISSION LOSSASTM E 90
ATI 00254 Revised 01/08/13
Universal Pultrusions Fiberglass Door and Frame, single side-hinged door system, duct sealed on both
sides (inoperable)
Architectural Testing
Test Date 01/15/13
ATI No. C3480.01A
Client Universal Pultrusions, LLC.
Specimen
Operator Kurt Golden
Sample Area 2.22 m2
Filler Area 10.78 m2
Source Receive Sample
Temp C 23 21 22
RH % 46 47 47
ATI 00254 Revised 01/08/13
Note: To obtain the Sound Transmission Class (STC), read the Sound Transmission Loss of the contour curve at
500 Hz. The sum of the deficiencies below the contour curve cannot exceed 32. The maximum deficiencies at any one
frequency cannot exceed 8.
SOUND TRANSMISSION LOSSASTM E 90
Universal Pultrusions Fiberglass Door and Frame, single side-hinged door system, duct sealed on both
sides (inoperable)
0
10
20
30
40
50
60
70
80
10 100 1000 10000
So
un
d T
ran
sm
iss
ion
Lo
ss
(d
B)
Frequency (Hz)
Sound Transmission Loss
Contour Curve Specimen TL
Architectural Testing
Test Date 01/15/13
ATI No. C3480.01B
Client Universal Pultrusions, LLC.
Specimen
Operator Kurt Golden
Sample Area 2.22 m2
Filler Area 10.78 m2
Source Receive Specimen
Temp C 22 22 22
RH % 47 50 48
Bkgrd Absorp Source Receive Filler Specimen 95% No. of Trans
Freq SPL SPL SPL TL TL Conf Defi- Coef
(Hz) (dB) (m2) (dB) (dB) (dB) (dB) Limit ciencies Diff
80 37 5.6 92 68 32 21 1.5 - 5.5
100 37 5.8 93 68 38 21 2.8 - 10.7
125 37 5.8 97 71 45 23 1.7 0 15.5
160 41 5.4 97 72 48 21 1.6 0 19.7
200 39 4.9 102 76 58 23 0.9 0 28.3
250 35 5.2 102 75 60 24 0.8 0 29.5
315 29 5.5 103 75 66 24 0.5 0 35.0
400 30 5.8 103 73 68 26 0.7 0 34.8
500 27 6.1 104 72 68 28 0.4 0 33.0
630 24 5.7 105 72 69 29 0.4 0 33.7
800 23 5.9 105 71 71 30 0.3 0 34.4
1000 19 6.2 105 71 74 30 0.4 0 37.5
1250 18 6.7 104 68 72 31 0.3 0 34.4
1600 12 7.1 107 72 71 31 0.2 0 33.6
2000 7 7.6 106 72 72 29 0.3 2 36.2
2500 7 8.6 105 72 75 28 0.3 3 40.3
3150 6 9.8 106 75 77 25 0.4 6 45.4
4000 7 11.9 106 76 81 23 0.3 8 51.1
5000 7 15.0 105 70 84 27 0.5 - 50.0
STC Rating 27 (Sound Transmission Class)
Deficiencies 19 (Number of deficiencies versus contour curve)
OITC Rating 26 (Outdoor Indoor Transmission Class)
Notes:
SOUND TRANSMISSION LOSSASTM E 90
ATI 00254 Revised 01/08/13
Universal Pultrusions Fiberglass Door and Frame, single side-hinged door system with Pemko seals
S773 frame perimeter and threshold
1) Transmission loss coefficient differences less than 6 indicate the lower limit of the transmission loss for this specimen. These cells are
highlighted red.
2) Transmission loss coefficient differences between 6 and 15 indicate there has been a filler wall correction applied. These cells are
highlighted green.
3) Receive Room levels less than 5 dB above the background levels are highlighted in yellow.
Architectural Testing
Test Date 01/15/13
ATI No. C3480.01B
Client Universal Pultrusions, LLC.
Specimen
Operator Kurt Golden
Sample Area 2.22 m2
Filler Area 10.78 m2
Source Receive Sample
Temp C 22 22 22
RH % 47 50 48
Note: To obtain the Sound Transmission Class (STC), read the Sound Transmission Loss of the contour curve at
500 Hz. The sum of the deficiencies below the contour curve cannot exceed 32. The maximum deficiencies at any one
frequency cannot exceed 8.
SOUND TRANSMISSION LOSSASTM E 90
Universal Pultrusions Fiberglass Door and Frame, single side-hinged door system with Pemko seals
S773 frame perimeter and threshold
ATI 00254 Revised 01/08/13
0
10
20
30
40
50
60
70
80
10 100 1000 10000
So
un
d T
ran
sm
iss
ion
Lo
ss
(d
B)
Frequency (Hz)
Sound Transmission Loss
Contour Curve Specimen TL
Architectural Testing