REPORT NUMBER: 100269638SAT-005A, -005C ORIGINAL ISSUE ... · Project No. G100269638SAT-005A Page 3...
Transcript of REPORT NUMBER: 100269638SAT-005A, -005C ORIGINAL ISSUE ... · Project No. G100269638SAT-005A Page 3...
This report is for the exclusive use of Intertek's Client and is provided pursuant to the agreement between Intertek and its Client. Intertek's responsibility and liability are limited to the terms and conditions of the agreement. Intertek assumes no liability to any party, other than to the Client in accordance with the agreement, for any loss, expense or damage occasioned by the use of this report. Only the Client is authorized to copy or distribute this report and then only in its entirety. Any use of the Intertek name or one of its marks for the sale or advertisement of the tested material, product or service must first be approved in writing by Intertek. The observations and test results in this report are relevant only to the sample tested. This report by itself does not imply that the material, product, or service is or has ever been under an Intertek certification program.
1
REPORT NUMBER: 100269638SAT-005A, -005C ORIGINAL ISSUE DATE: March 31, 2011
REVISED DATE: N/A
EVALUATION CENTER 16015 Shady Falls Road
Elmendorf, TX 78112 Phone: (210) 635-8100
Fax: (210) 635-8101 www.intertek.com
RENDERED TO
LaPolla Industries Inc 15402 Vantage Parkway East
Suite 322 HOUSTON, TX 77032
PRODUCT EVALUATED: FOAM-LOK™ FL2000 Spray Insulation
EVALUATION PROPERTY: Fire Resistance TEST
REP
OR
T
Report of Testing FOAM-LOK™ FL2000 (Closed Cell) Spray Insulation for compliance with the applicable requirements of the following criteria: ASTM E119−10b Standard Test Methods for Fire Tests of Building Construction and Materials, August 2010 Edition.
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 2 of 51
1 Table of Contents 1 Table of Contents..................................................................................................................2 2 Introduction ...........................................................................................................................3 3 Test Samples ........................................................................................................................3
3.1. SAMPLE SELECTION ..................................................................................................3
3.2. SAMPLE AND ASSEMBLY DESCRIPTION .................................................................3 4 Testing and Evaluation Methods...........................................................................................4
4.1. TEST STANDARD ........................................................................................................4 5 Testing and Evaluation Results.............................................................................................4
5.1. RESULTS AND OBSERVATIONS................................................................................4
5.2. EXAMINATION OF RESULTS......................................................................................5 6 Conclusion ............................................................................................................................7 APPENDIX A - Assembly Drawings 8 APPENDIX B - Temperature Data 11 APPENDIX C - Photographs 29 LIST OF CALIBRATED INSTRUMENTATION 50 REVISION SUMMARY / LAST PAGE OF REPORT 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 3 of 51
2 Introduction Intertek Testing Services NA, Inc. (Intertek) has conducted testing for LaPolla Industries, Inc., on their FOAM-LOK™ FL2000 (Closed Cell) Spray Insulation covered with 2 layers of Type X gypsum board, to evaluate its fire resistance. Testing was conducted in accordance with the applicable requirements of, and following the standard methods of, ASTM E119−10b Standard Test Methods for Fire Tests of Building Construction and Materials, August 2010. This evaluation began on March 25, 2011 and was completed on March 31, 2011.
3 Test Samples 3.1. SAMPLE SELECTION Samples were submitted to Intertek directly from the client. Samples were not independently selected for testing. Samples were received at the Evaluation Center on Match 24, 2011. Samples of the test material were taken and set aside for future component verification. Samples included:
Isocyanate A (component), LPA-ISO, Drum #0242, Material # YWMDI DR551, Batch #ZA1501MP74
Foam-Lok™ Spray Foam Insulation FL2000 Resin B (component) Regular, Lot #T06811-B1
3.2. SAMPLE AND ASSEMBLY DESCRIPTION A 10’ x 10’, non-load-bearing wall was constructed of steel studs, gypsum board and spray insulation (see Appendix A). 1. Framing − 3-5/8”, 20 GA galvanized steel studs spaced 24” o.c., floated between 20 GA
galvanized steel track. 2. Interior and Exterior Cladding − Two layers of 4’ x 10’ x 5/8” USG SheetRock® Firecode Core
TYPE X™ gypsum board, installed with the long edge parallel to the studs; base layer installed using #6 x 1-1/4” self drilling screws spaced 8” o.c. around the perimeter and 12” o.c. in the field; face layer installed with butt joints staggered 24” from the base layer,, secured using #6 x 1-7/8” self drilling screws spaced 8” o.c. around the perimeter and 12” o.c. in the field; exposed seams and fasteners received a Level 2 Finish.
1 3
2
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 4 of 51
3. Insulation − FOAM-LOK™ FL2000 (Closed Cell) Spray Insulation (reported density nominal 2 - 2.3 pcf) filling the stud cavity; spray applied by representatives of LaPolla Industries, Inc., on March 25, 2011.
4 Testing and Evaluation Methods
4.1. INSTRUMENTATION The unexposed surface of the assembly was instrumented with a total of ten, 24 GA, Type K, fiberglass jacketed thermocouples: nine were evenly distributed across the unexposed surface; TC # 2 was located over a stud, TC #10 was located over a joint, over a stud (see Appendix A). The output of the thermocouples and the furnace probes were monitored by a 100-channel Yokogawa, Inc., Darwin Data Acquisition Unit. The computer was programmed to scan and save data every 30 seconds. Following the test, the files were imported into MS Excel for tabular and graphical display (presented in Appendix B).
4.2. TEST STANDARD Testing was conducted in accordance with the applicable requirements of, and following the standard methods of, ASTM E119−10b Standard Test Methods for Fire Tests of Building Construction and Materials, September 2010. The assembly was secured to the large scale vertical furnace and was tested to the standard time-temperature curve described in the E119 standard.
5 Testing and Evaluation Results 5.1. RESULTS AND OBSERVATIONS The test was initiated on Friday, March 25, 2011. The ambient temperature at the time of the test was 87°F and the relative humidity was 44%. Immediately following the fire test, the assembly was removed from the furnace, and the exposed surface was subjected to the impact, cooling and erosion effects of the standard hose stream test. The water stream was applied from a distance of 20 feet, at an angle of 90°, at a pressure of 30 psig in compliance with the standard. Observations made during the test are listed below: Time (min:sec) Observations
0:00 The test was initiated at 3:25 P.M. 2:00 There was discoloration of the exposed surface 2:20 The gypsum board paper on the exposed surface ignited
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 5 of 51
2:50 The paper was consumed, the flames self extinguished 13:00 The joint tape and compound at the joints on the exposed surface were
flaking 17:00 The joint tape and compound at the joints on the exposed surface were
consumed 25:00 There was approximately 1/2” shrinkage at the joints of the gypsum board
on the exposed surface 26:00 A vertical crack had developed in the right-side joint of the face layer on the
exposed surface (as viewed from the exposed side) 41:00 The middle sheet of the face layer of gypsum on the exposed surface fell 42:00 Vertical cracks had developed in the center of the stud cavities on the
exposed surface 45:00 There were flames at the joints of the base layer of gypsum on the exposed
surface 46:00 The base layer of gypsum board on the exposed surface shifted out of place 47:30 There was heavy flaming on the exposed surface; the center gypsum board
panel fell, exposing the foam 49:00 Sections of gypsum board continued to fall from the exposed surface 51:40 Large sections of foam insulation were falling from the stud cavities on the
exposed surface 56:00 There was buckling of the studs on the exposed side of the assembly; the
back side of the exterior gypsum board became exposed 64:00 The test was terminated
The test assembly withstood the effects of the fire resistance test without passage of flame, or gases hot enough to ignite cotton waste. Transmission of heat across the wall did not raise the average temperature on the unexposed surface more than 250°F above the average initial ambient temperature, or the temperature at any single thermocouple more than 325°F above the initial ambient temperature. A duplicate assembly was constructed to meet the requirements of the hose stream test. Assembly drawings, the test data and photographs documenting the test are located in the Appendices of this test report.
5.2. EXAMINATION OF RESULTS 5.2.1. Correction Factor for the Fire Endurance Test
In accordance with the E119 test standard, a calculation for any correction to the indicated fire resistance period was done. The correction factor was then mathematically added to the indicated fire resistance period, yielding the fire resistance period achieved by this specimen: Correction Factor for the Fire Endurance Test
ITEM
DESCRIPTION
TEST VALUE
C
correction factor
-0.71 minutes -43 seconds
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 6 of 51
I
indicated fire-resistance period
64 minutes
A area under the curve of indicated average furnace temperature for the first three fourths of the indicated period
61914 (°F•min)
As area under the standard furnace curve for the same part of the indicated period
63022 (°F•min)
ITEM
DESCRIPTION
TEST VALUE
L lag correction 3240
FIRE RESISTANCE PERIOD ACHIEVED BY THIS SPECIMEN ==>
63 minutes
Note: The standard specifies that the fire resistance be determined to the nearest integral minute. The -43 second error factor was added to the indicated 64min fire-resistance period and the resulting 63 min fire resistance period (rounded to the nearest whole minute).
5.2.2. Surface Deflection
The deflection of the unexposed surface was measured at 3 equidistant locations, 30”, 60”, and 90” from left to right, across the horizontal midline, during the span of the test. The amount of that deflection is presented in the table below.
Time (min) Position 1 (in) Position 2 (in) Position 3 (in) 0:00 0 0 0
17:00 1/8 1/8 1/8 35:00 1/4 1/4 1/4 55:00 -5/8 -1/4 1/8 62:00 -1 -3/4 -3/8
Hose Stream Re-Test, Project G100269638SAT-005C The hose stream retest was conducted on March 31, 2011, on a wall constructed identically to the original wall. The hose stream retest requires a fire exposure of 1/2 the duration of the original wall, or 60 minutes, whichever is less. So, after 30 minutes of exposure, the wall assembly was removed from the furnace and the exposed surface was subjected to the impact, cooling and erosion effects of the standard hose stream test. The water stream was applied from a distance of 20 feet, at an angle of 90°, at a pressure of 30 psig for 1 minute, in compliance with the standard for a 1-hour fire test. The wall withstood the fire and hose stream tests without passage of flame, of gases hot enough to ignite cotton waste, or of the passage of water from the hose stream. No openings developed that permitted a projection of water from the stream beyond the unexposed surface during the time of the hose stream retest.
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 7 of 51
6 Conclusion Intertek Testing Services NA, Inc. (Intertek) has conducted testing for LaPolla Industries, Inc., on their FOAM-LOK™ FL2000 (Closed Cell) Spray Insulation covered with 2 layers of Type X gypsum board, to evaluate its fire resistance. Testing was conducted in accordance with the applicable requirements of, and following the standard methods of, ASTM E119−10b Standard Test Methods for Fire Tests of Building Construction and Materials, August 2010. This evaluation began on March 25, 2011 and was completed on March 31, 2011. Based on the results of this test, the non-load-bearing test assembly achieved a fire resistance rating of 63 minutes. The conclusions of this test report may not be used as part of the requirements for Intertek product certification, pending product verification. Authority to Mark must be issued for a product to become certified. INTERTEK TESTING SERVICES NA, INC.
Tested by: ______________________
Joseph Zatopek Test Engineer
Reported by: _____________________
Michael A Brown Technical Writer Reviewed by: _____________________
Victor M. Burgos Test Engineer, Fire Resistance
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 8 of 51
APPENDIX A Assembly Drawings
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 9 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 10 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 11 of 51
APPENDIX B Temperature Data
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 12 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 13 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 14 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 15 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 16 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 17 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 18 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 19 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 20 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 21 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 22 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 23 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 24 of 51
Hose Stream Re-Test
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 25 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 26 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 27 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 28 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 29 of 51
APPENDIX C Photographs
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 30 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 31 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 32 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 33 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 34 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 35 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 36 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 37 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 38 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 39 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 40 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 41 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 42 of 51
Hose Stream Re-Test
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 43 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 44 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 45 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 46 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 47 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 48 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 49 of 51
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 50 of 51
CALIBRATED INSTRUMENTATION USED FOR TESTING
Description Serial No. Calibration Due Date
Thermo-Hygrometer 101549662 3/15/2012
Data Acquisition Unit 99LE004 7/10/2011
0-60 psi Gauge (hose stream) 06LE007 6/3/2011
Stopwatch 91120823 9/15/2011
LaPolla Industries, Inc. March 31, 2011 Project No. G100269638SAT-005A Page 51 of 51
REVISION SUMMARY
DATE SUMMARY
March 31, 2011 Original Issue Date