HRAC Update: Asphalt Shingle Research. Principal Investigator: Forrest J. Masters, Ph.D., P.E. (FL)

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HRAC Update: Asphalt Shingle Research Principal Investigator: Forrest J. Masters, Ph.D., P.E. (FL) Co-PI: David O. Prevatt, Ph.D., P.E. (MA) Co-PI: Kurtis R. Gurley, Ph.D. 1

Objectives and Exp. Outcomes Objective\Purpose To investigate the performance of new and aged asphalt roof shingles exposed to windstorm conditions and to calibrate current wind uplift requirements to realistic wind load scenarios Expected Outcomes Provide a comprehensive quantification of the performance of new and aged shingle roof systems Refine the specific causes of the inadequate performance observed in field studies Create a roadmap to reduce loss associated with shingle damage in extreme winds 2

Progress May June July August DFS Commissioning Load Model/Unsealed Shingle Experiments (ERP #7) Build Specimens for ERP #7 Testing 3 UV + Heat + Water Spray Accelerated Aging Experiment (Ongoing) Final Prep for System-Level Testing at the IBHS Research Center (ERP #2) Unsealed Asphalt Shingle Surveys (21 Homes Sarasota, FL) System-Level Performance Testing (IBHS, ERP #2) Oversight Committee IBHS Site Visit (Aug 17-18)

Asphalt Shingle Load Model Evaluation Goal: To evaluate the current asphalt shingle load model and extend our knowledge on wind load effects on asphalt shingles. Variables: - Mean velocity - Angle of attack - Length and pattern of seal (unsealing effects) 4

ERP #7 - Asphalt Shingle Load Model Evaluation Methods: - Directly measure wind load path à six-axis load cells at sealant strip and fasteners - Measure three-axis wind velocity using TFI Cobra Probes at 1 in above shingle deck - Use turntable and vary angle of attack - Vary mean wind velocity - Full seal à partial seal à fully unsealed load effects - Test specimens à 1 laminated, 1 three tab 5

ERP #7 - Asphalt Shingle Load Model Evaluation 6

ERP #7 - Asphalt Shingle Load Model Evaluation 7

SERRI Project 90100 Residential Roof Covering Investigation of Wind Resistance of Asphalt Shingles ERP #7 - Asphalt Shingle Load Model Evaluation 8

ERP #7 - Asphalt Shingle Load Model Evaluation MEASURED: 220 mph unobstructed flow 170 mph with ASTM D7158 Turbulence Grid Ceiling height is adjustable to produce static regain to overcome frictional losses Airflow Cobra Probes 9

Next step.. Final commissioning Testing.. Please let us know if you wish to attend 10

Asphalt Shingle Load Model Evaluation Goal: To investigate the system-level performance of ASTM D7158 Class H (150 mph) asphalt shingles subjected to a realistic BL wind storm at the IBHS Research Center in Chester County, SC Variables: - Mean velocity à 53, 64, 76 mph (peaks à 84, 108, 120 mph) - Roof type à hip vs. gable - Product type à three-tab vs. laminate 11

30 MW Wind Tunnel Test Two Story Home in Cat 3 Hurricane Chester County, SC 12

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Base Structure Prep 14

SERRI Project 90100 Residential Roof Covering Investigation of Wind Resistance of Asphalt Shingles Base Structure Prep 15

Base Structure Prep 16

Base Structure Prep 17

Complete Structure 18

Test Schedule Base structure construction complete Testing à July 30 th Aug 31 st Test roofs subjected to open country BL wind test à Three 30 min wind tests at one direction à Peak speeds = 84, 108, 120 mph à Continuous HD video capture à Forensic investigation b/t each wind test 19

Uplift Resistance of Shingles Subjected to UV + Heat + Water Spray Aging Repeat of thermal aging experiment add-in UV + water Aging up to 3000 hr Continuous cycles à 5 hr 158 F + UVA 340, 15 min. water spray Two manufacturers (A & B from thermal aging) Five testing intervals (1, 5, 12, 16, and 20 weeks) Chamber details 48 UVA340 Lamps @ 4 on center Irradiance measured along centerline of chamber via radiometer Irradiance @ 158 F = 0.70 W/m 2 @ 340 nm à equivalent to sun at noon Heater control via internal thermocouples 240 specimen capacity (ASTM D6381) 20

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Test Schedule Experiment commenced May 7 th, 2012 Week one specimens extracted à Mechanical uplift testing in progress Experiment will conclude Sept 24 th, 2012 (20 week aging) 23

Thank you for your time and attention Questions/Comments? Contact Information Dr. Forrest Masters, P.E., Assistant Professor, masters@ce.ufl.edu Dr. David Prevatt, P.E., Assistant Professor, dprev@ce.ufl.edu Dr. Kurtis Gurley, Associate Professor, kgurl@ce.ufl.edu Department of Civil and Coastal Engineering University of Florida Follow the project on asphaltshingles.windengineer.org and on the UF Hurricane Research Facebook site 24