Fiber Reinforced Concrete Overlays for Bridge Structures
Rigid overlays measuring 1.5 to 2 inches are placed on bridge decks to improve the ride quality and lower the permeability of the concrete over the reinforcement. Low permeability concretes resist the penetration of water and harmful solutions into concrete. On the other hand, cracks in concrete can facilitate the intrusion of solutions. Chloride solutions induce corrosion of reinforcement, which is the leading distress in bridge decks. Corrosion products cause cracking and spalling of the concrete above the reinforcement and in later stages can cause failure of the reinforcing bars. Rigid overlays are prone to cracking if proper placement and curing procedures are not followed. Cracks in decks can reflect through the overlays. Rigid low-permeability overlays with synthetic or steel fibers can be placed on bridge decks that will control cracking and resist intrusion of solutions into concrete. These fiber reinforced concretes can enable overlay thicknesses less than 1 inch. Lower thickness can reduce dead load, reduce materials cost, and contribute to sustainability.
Language
- English
Project
- Status: Active
- Funding: $246116
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Contract Numbers:
117777
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Sponsor Organizations:
Virginia Transportation Research Council
530 Edgemont Road
Charlottesville, VA United States 22903 -
Performing Organizations:
Virginia Transportation Research Council
530 Edgemont Road
Charlottesville, VA United States 22903 -
Principal Investigators:
Ozyildirim, Celik
Sharifi, Mary
- Start Date: 20200722
- Expected Completion Date: 20231231
- Actual Completion Date: 0
Subject/Index Terms
- TRT Terms: Bridge decks; Corrosion; Cracking; Fiber reinforced concrete; Overlays (Pavements); Permeability; Ride quality; Thickness
- Subject Areas: Bridges and other structures; Highways; Maintenance and Preservation; Materials;
Filing Info
- Accession Number: 01745607
- Record Type: Research project
- Source Agency: Virginia Department of Transportation
- Contract Numbers: 117777
- Files: RIP, STATEDOT
- Created Date: Jul 21 2020 8:55AM