1325 N. 108th E. Ave. Tulsa, OK 74116 918.437.8333 ph. | 918.437.8487 fx. CLIENT: International Fireproof Technology, Inc. 17528 Von Karman Ave. Irvine, CA 92614 And International Carbide Technology No. 1-17, Toa-Chan, 13 Ling Lu-Chu Hsiang Kern-Ko Village Taiw an, Republic of China Test Report No: SUBJECT: PRODUCT EVALUATED: TJ2699-4 Date: April 15, 2015 Room Corner Burn – Spray Applied Foam Insulation, ICC-ES AC377 Appendix X Requirements. Client refers to samples received as “BASF SPRAYTITE 158 closed cell spray applied polyurethane foam insulation with 4 mils wet film thickness (wft) DC315”. This project w as entered into our receiving system on January 30, 2015 in good condition. TEST REQUESTED: Flammability Testing to ICC-ES AC377 Appendix X, Approved November 2012, Acceptance Crit eria for Spray-Applied Foam Plastic Insulation using modified NFPA 286, Standard Methods of Fire Tests for Evaluating Contribution of Wall and Ceiling Interior Finish to Room Fire Grow th – 2015 Edition. The referenced procedure w as used to generate this report and data obtained from the test. TEST DATE: April 7, 2015. RESULTS: Results can be found on the follow ing pages. CONCLUSION: ICC-ES AC377 Appendix X pass / fail criteria require the assembly to meet or surpass 4:18 min:sec. The test assembly sprayed w ith BASF’ s SPRAYTITE 158 foam at 5 ½ inches in the w all cavities, and 11 ½ inches in the ceiling cavities meets these requirements w hen applied at a 2.0 lbs/ft³ density. CERTIFICATION: The tests reported here w ere conducted under the continuous direct supervision of QAI Laboratories Inc., Tulsa, OK. No revisions of this report w ill be allow ed after 90 days of the original report issue. Prepared By Signed for and on behalf of QAI Laboratories, Inc. David Bauchmoyer Fire Test Technician J. Brian McDonald Operations Manager Page 1 of 11 THIS REPORT IS THE CONFIDENTIAL PROPERTY OF THE CLIENT ADDRESSED. THE REPORT MAY ONLY BE REPRODUCED IN FULL. PUBLICATION OF EXTRACTS FROM THIS REPORT IS NOT PERMITTED WITHOUT WRITTEN APPROVAL FROM QAI. ANY LIABILITY ATTACHED THERETO IS LIMITED TO THE FEE CHARGED FOR THE INDIVIDUAL PROJECT FILE REFERENCED. THE RESULTS OF THIS REPORT PERTAIN ONLY TO THE SPECIFIC SAMPLE(S) EVALUATED. WWW.QAI.ORG info@qai.org Client: INTERNATIONAL FIREPROOF TECHNOLOGY, INC Job No.: TJ2699-4 Date: April 15, 2015 Page 2 of 11 Test Sample Description: QAI Laboratories, Inc. conducted testing for International Fireproof Technology, Inc on BASF SPRAYTITE 158 closed cell spray applied polyurethane foam to evaluate heat release and flame spread properties w hen subjected to specific ignition conditions. Testing w as conducted in accordance w ith AC 377, Appendix X w hich references a modified version NFPA 286, 2015 Edition. This testing w as performed on April 7, 2015. Test samples (Both Part A and B – Lot #H52HJ179 and Lot #0013120625 ) w ere randomly selected and sealed by QAI Laboratories representative Abel Bercian on February 3 rd, 2015. QAI verified the seals and inspector marks upon receipt. The foam components arrived at QAI Laboratories on February 5 th, 2015 and w ere verified by QAI Laboratories. Construction of the test room and BASF SPRAYTITE 158 closed cell spray applied polyurethane foam w ere w itnessed by QAI in accordance w ith Section 3.3 of ICC-ES AC85. The test room w as built by QAI Laboratory personnel prior to the application of the test sample. The three w alls that held the t est specimen consisted of 2 x 6 w ood studs, spaced 24 inches on center. The ceiling w as constructed using 2 x 12 w ood joists, spaced 24 inches on center, running parallel to the side w alls. The exterior side of the stud w alls and ceiling joists w ere covered w ith 5/8” thick, Type X gypsum board. The final interior dimensions w ere 8 feet high, 8 feet w ide and 12 feet deep. On February 9 th 2015, Steve Croft sprayed the stud cavities w ith approximately 5 ½ inches and joist cavities w ere filled w ith approximately 11 ½ inches of BASF SPRAYTITE 158 closed cell spray applied polyurethane foam insulation. This spray foam insulation has an advertised density of 2.0 lbs/ft ³. Density measured from the tested room w as 2.1 lbs/ft ³. The back corners of the room are constructed so that they meet the criteria of NFPA 286. On March 10 th, 2015, representatives from International Fireproof Technologies, Inc (IFTI) coated the test module w ith an application of 4 mils w et film thickness of DC315 (measured 3 mils dry film thickness using medallion method). International Fireproof Technology, Inc. is part of WHI 3rd party inspection program. The DC315 used on this test is labeled and marked as listed, inspected and certified product. WHI S/N 20947 w as listed on the label of the pails received by QAI and used for this test. The temperature of the test chamber prior to test w as 80° F (27° C) and the relative humidity w as 55% . Ignition Source: The ignition source for the test is a gas burner w ith a nominal 12 by 12 inch orifice, filled w ith a minimum 4 inch layer of Ottaw a sand. The top surface of the burner through w hich the gas is applied is positioned 12 inches above the floor. The burner enclosure w as placed as per AC377 Appendix X, Figure X3, from the side w all and back w all in the test corner, opposite the door. Burner Gas Flow: CP Grade Propane w as used for burner supply gas. A calibrated mass flow met er (Asset A300110, due for calibration 5/28/15) w as used to meter flow to the burner. The 40 kW 5 minute exposure flow ed 27 l/min Propane. These numbers w ere based upon the follow ing constant: 1.485 kW min/l. Page 2 of 11 Client: INTERNATIONAL FIREPROOF TECHNOLOGY, INC Job No.: TJ2699-4 Date: April 15, 2015 Page 3 of 11 Compartment Geometry: The interior dimensions of the floor of the fire test room, w hen the specimens are in place, measures 8 by 12 feet. The finished ceiling is 8 feet + /- 0.7 inches above the floor. The four w alls are right angles defining the compartment. The compartment contains a 30 + / - 0.25 by 80 + /- 0.25 inch doorw ay in the center of one of the 8 by 8 foot w alls. No other openings w ere present to provide ventilation. Heat Release Rate Information: All Heat Release Rate information obtained during this test utilized oxygen consumption c alorimetry. The equation used for calculation is as follow s: Thermocouple Placement: Doorw ay Quadrant I Quadrant II Center Quadrant III Quadrant IV FIGURE 1. Thermocouple Locations Page 3 of 11 Client: INTERNATIONAL FIREPROOF TECHNOLOGY, INC Job No.: TJ2699-4 Date: April 15, 2015 Page 4 of 11 VISUAL OBSERVATIONS and DISCUSSIONS OF PEFORMANCE: 0:00:00 0:01:00 0:02:00 0:03:00 0:04:00 0:05:00 – – – – – – Sand diffusion burner lit to 40 kW flame Flames immediately w ent to the ceiling, heavy smoke noted Flame level and smoke has decreased Flame and smoke level remaining same, little to no flames from assembly Flame and smoke level steady, very little smoke Test Concluded Flame Spread and Charring Measurement Discussion: Flame spread of sample w as limited to an approximate 2 foot w ide on back w all, 2 foot w ide on side w all and 8 foot in height in “ V” pattern up corner of ignition. Flames did not reach the extremities of the test cell during the 40kW. Heat Flux Information: The heat flux gauge at the floor registered a peak Heat Flux of 1.8 kW/m ² at 4:00 into test. FLASHOVER POTENTIAL: In Section 1.3.1 of NFPA 286, the definition of flashover is an event w here any tw o of the follow ing conditions have been attained: Heat Release Rate exceeds 1 MW Average upper layer temperature exceeds 600 ºC (1112ºF) Heat Flux at the floor exceeds 20 kW/m² Flames exit doorw ay For purposes these test results, the follow ing compares the standard’ s definition of flashover w ith actual test results for comparison purposes: Peak Heat Release Rate exceeds 1 MW; Average upper average temperature exceeds 600 ºC (1112ºF); Heat Flux at the floor exceeds 20 kW/m² Flames exiting the doorw ay; Average of four times; Page 4 of 11 0:00 0:00 0:00 0:00 0:00 Did Did Did Did Did Not Not Not Not Not Happen Happen Happen Happen Happen Client: INTERNATIONAL FIREPROOF TECHNOLOGY, INC Job No.: TJ2699-4 Date: April 15, 2015 Page 5 of 11 RESULTS: Temperature vs. Time Chart (during first five minutes of test): FIGURE 2. Temperature vs. Time Maximum Peak Thermocouple Temperatures (during first five minutes of test): Doorw ay Center Quadrant I Quadrant II Quadrant III Quadrant IV Ignition Average Peak Upper Layer Temperature Page 5 of 11 163° F (73° C) 198° F (92° C) 264° F (129° C) 232° F (111° C) 256° F (124° C) 233° F (112° C) 313° F (156° C) 237° F (114° C) Client: INTERNATIONAL FIREPROOF TECHNOLOGY, INC Job No.: TJ2699-4 Date: April 15, 2015 Page 6 of 11 Heat Release Rate vs. Time Chart (during first five minutes of test): FIGURE 3. Heat Release Rate vs. Time Numeric Values: 0-5 min average Peak Heat Release Rate Total Heat Released During Test Page 6 of 11 44.7 kW 49 kW @ 2:13 12.0 MJ Client: INTERNATIONAL FIREPROOF TECHNOLOGY, INC Job No.: TJ2699-4 Date: April 15, 2015 Page 7 of 11 Smoke Obscuration and Smoke Release Rate (during first five minutes of test): FIGURE 4. Smoke Release Rate vs. Time Numerical Values: 0-5 min average (m²/s) Peak Smoke Release Rate Total Smoke Released Peak Obscuration Page 7 of 11 0.06 0.12 m²/s @ 1:09 23.3 16% Client: INTERNATIONAL FIREPROOF TECHNOLOGY, INC Job No.: TJ2699-4 Date: April 15, 2015 Page 8 of 11 PHOTOS: DRUMS OF FOAM BASF 158 Foam Barrels IFTI’ s DC315 paint buckets Page 8 of 11 Client: INTERNATIONAL FIREPROOF TECHNOLOGY, INC Job No.: TJ2699-4 Date: April 15, 2015 Page 9 of 11 PHOTOS: BEFORE TEST Sign Ignition Corner Overall Page 9 of 11 Client: INTERNATIONAL FIREPROOF TECHNOLOGY, INC Job No.: TJ2699-4 Date: April 15, 2015 Page 10 of 11 PHOTOS: DURING TEST Test Start First Minute of Test Second Minute of Test Third Minute of Test Page 10 of 11 Client: INTERNATIONAL FIREPROOF TECHNOLOGY, INC Job No.: TJ2699-4 Date: April 15, 2015 Page 11 of 11 PHOTO: DURING TEST Fourth Minute of Test At Five Minutes ******** End of Report Page 11 of 11
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