Structural and durability analysis of a novel re-roofing concept

Russell Richman Info

Author Name	Affiliation
Russell Richman	Ryerson University, 350 Victoria Street, Toronto, ON M5B 2K3, Canada

Evan Bentz Info

Author Name	Affiliation
Evan Bentz	University of Toronto, 563 Spadina Crescent, Toronto, ON M5S 2J7, Canada

Denver Jermyn Info

Author Name	Affiliation
Denver Jermyn	Ryerson University, 350 Victoria Street, Toronto, ON M5B 2K3, Canada

Chang Sun Info

Author Name	Affiliation
Chang Sun	University of Toronto, 563 Spadina Crescent, Toronto, ON M5S 2J7, Canada

DOI: https://doi.org/10.3846/2029882X.2017.1404939

Abstract

Metal roof decks in long-span light steel structures can become damaged and obsolete by corrosion should the roofing system become compromised. Re-roofing is conducted by either removing and replacing damaged areas (resulting in suspension of interior operations and lost revenue) or installing new decking directly over the damaged areas which can transfer corrosion to the new deck. This research conducts structural and durability analyses on a novel proposed re-roofing concept that installs a new metal roof deck over the existing deck by using a proprietary deck strap resulting in no interruption of interior processes. Preliminary structural analysis shows the proposed concept to be applicable to generic conditions around Southern Ontario. Recommendations for project specific structural analysis are made. Durability analysis demonstrates that the proposed concept system improves hygrothermal performance of the roof assembly in all cases except when insulation in the existing roof assembly is saturated. Saturated insulation should be removed prior to installing the re-roofing system.

Keywords:

metal roof deck, corrosion mitigation, flat and low-slope roofing, roof replacement, re-roofing, reduction in loss of downtime, roof retrofit application, structural analysis, durability analysis, hygrothermal performance