Wind Resistance of Single-Ply Roof Systems over Metal Panel Roofs

By clicking "Register", you acknowledge that you have read BNP Media’s Privacy Policy, agree to its terms, and consent to allow BNP Media to use your information consistent with the Privacy Policy. You agree your information submitted will be shared with the sponsor(s) of the webinar. To read our Privacy Policy, please click here
Webinar On-Demand
Sponsored by GAF
Presented by Jennifer Keegan, AIA, and James Kirby, AIA

Learning Objectives:

  1. Assess the load path for wind resistance of metal buildings, and identify the structural concerns when changing the load path.
  2. Discuss how fastener pattern is directly related to wind uplift resistance (based on large-scale physical testing).
  3. Define fastener spacing guidelines based on calculated loads and pullout values for a typical reroofing scenario.
  4. Recognize that our traditional assumptions about wind uplift resistance as it relates to tributary area are not necessarily correct.

Credits:

HSW
1 AIA LU/HSW
IIBEC
1 IIBEC CEH
IACET
0.1 IACET CEU*
As an IACET Accredited Provider, BNP Media offers IACET CEUs for its learning events that comply with the ANSI/IACET Continuing Education and Training Standard.
This test is no longer available for credit

Retrofit single-ply roof systems (RSPRS) are increasingly being used to re-cover existing structural metal panel roofs. Wind uplift resistance is of primary concern when a RSPRS is installed over a structural metal panel roof. To determine capacity, E1592 physical testing was performed on four test roof assemblies, each consisting of a mechanically attached TPO with flat stock and flute fill polyiso over a 24-inch wide structural metal panel roof system. Each RSPRS had different fastener patterns; the result was different wind uplift resistance values. The results from and an analysis of the four physical tests will be presented.

Jennifer Keegan, AAIA, is the Director of Building & Roofing Science for GAF, focusing on overall roof system design and performance. She has over 20 years of experience as a building enclosure consultant specializing in assessment, design and remediation of building enclosure systems. Jennifer provides technical leadership within the industry as the Chair of the ASTM D08.22 Roofing and Waterproofing Subcommittee, and the education chair for IIBEC; and as an advocate for women within the industry as an executive board member of National Women in Roofing and a board member of Women in Construction.


James R. Kirby , AIA, is a GAF Building & Roofing Science Architect. He has a Masters of Architecture—Structures Option, and he is a licensed architect. Jim has over 25 years of experience in the roofing industry covering low-slope, steep-slope, metal, SPF, vegetative and rooftop photovoltaics. He presents building and roofing science information to architects, consultants and building owners, and he writes articles and blogs for building owners, facility managers, and the roofing industry at-large. Jim is a member of AIA, ASTM, ICC, IIBEC, NRCA and WSRCA.

 

GAF | Siplast The Building and Roofing Science team offers regional expert building enclosure collaboration through design, specification, and educational support for customers of GAF and Siplast, both Standard Industries companies. GAF is North America’s largest roofing manufacturer with more homes and businesses in the U.S. protected by a GAF roof than any other product. Siplast, a leader in building enclosure systems, offers a portfolio of advanced, high-performance SBS-modified bitumen, PMMA liquid-applied, PVC KEE, lightweight insulating concrete, wall air & water barrier systems, and amenity/vegetated systems.

 

Originally published in November 2020

Notice

Academies