A New test method for quantifying air leakage of a mechanically-attached roofing assembly

  1. (PDF, 918 KB)
AuthorSearch for: ; Search for:
ConferenceProceedings of the RCI 22nd International Convention: 01 March 2007, Orlando, Florida
Pages105116; # of pages: 12
Subjectroofs, roof components, assemblies, air leakage, air intrusion, test method, wind; Roofs
AbstractAir intrusion into roof assemblies is a concern for wind uplift resistance and life cycle performance of roofs. Airflow control is usually achieved by the installation of a barrier/retarder in the roofing assembly. Even though the concept of air barrier/retarder and air barrier systems has been around for decades, it is still pretty much a new notion to the roofing industry. Currently, there are no widely accepted standard specifications or test methods to determine the air leakage through a roof. An experimental procedure has been under development at National Research Council of Canada to quantify the air intrusion into roof assemblies. As part of this investigation, five roofing assembly configurations were quantified for air leakage. Relative performance of the air retarding effect of the five assemblies indicated that assemblies with a barrier/retarder had lower air leakage rates than without. Measured air leakage rates are compared with the existing codes of practice and standards. This comparison clearly demonstrates the significance of air intrusion into the roofing assembly and the necessity of a standardized air leakage test method for the roofing industry.
Publication date
AffiliationNRC Institute for Research in Construction; National Research Council Canada
Peer reviewedYes
NRC number49438
NPARC number20377756
Export citationExport as RIS
Report a correctionReport a correction
Record identifierc051c23e-a4bd-4fb6-b3c5-6e01bac53116
Record created2012-07-24
Record modified2016-05-09
Bookmark and share
  • Share this page with Facebook (Opens in a new window)
  • Share this page with Twitter (Opens in a new window)
  • Share this page with Google+ (Opens in a new window)
  • Share this page with Delicious (Opens in a new window)
Date modified: