Abstract
FIU inventors developed a High-Wind
Resistant Concrete Roofing. This system reduces hurricane-induced damage,
property losses and insurance costs, and enhances occupant safety, while being
aesthetically attractive, and similar to the existing tile roof systems. The
system’s structural and economic feasibility, constructability, and performance
have been validated through detailed experimental investigations. Details of
the investigations are available upon request.Hurricane-induced damage and property losses are due in
large part to failure of roofs and water intrusion. To improve roof strength
and performance, this system uses concrete panels reinforced by
high-performance fiber-reinforced polymer (FRP) meshes. The system eliminates
commonly used roof components and subassemblies such as wooden trusses,
sheathing, underlayment, and shingles or tiles, which are most vulnerable in
high winds. The new system replicates the shape and color of commonly used
barrel tiles or other shapes, thus preserving the aesthetics of traditional
roofing. Additional features are unimpeded and spacious attic space and
increased interior volume underneath the roof. The system’s estimated cost is
comparable to the cost of conventional roofing systems.
Benefit
Exceeds the minimum requirement by the Florida Building Code for hurricane-prone regions Able to withstand winds up to 200 mph Provides high structural integrity at low cost, and is wind-water-debris resistant Able to reproduce tile patterns and maintain the aesthetic appeal of traditional roofs Accommodates pre-installed wiring and utility connections Incorporates pre-attached insulation to accomplish higher energy rating Has high ductility Provides higher fire rating than existing systems Is Corrosion resistant May be prefabricated or cast in place
Market Application
The system is light, strong, wind-water-debris resistant, and is applicable to new construction as well as for upgrading roof systems of existing building
Brochure