Verification of Composite Behavior of a Precast Decked Simple Span

Publication Date


Document Type

Conference Proceeding


Osegueda, R.A., Noel, J.S., and Panak, J.J., 'Verification of Composite Behavior of a Precast Decked Simple Span,' Transportation Research Record 1211 - Concrete Bridge Design and Maintenance: Steel Corrosion in Concrete, Transportation Research Board, pp. 72-83


This paper documents the reconstruction of a simple span bridge redecked with full-depth, full-width precast concrete panels connected to act in a composite way with supporting stringers. It also reports the results of full-scale load tests and of an analysis conducted to evaluate the composite behavior of the precast decked span. Eight precast concrete panels, each 6 ft 3 in. x 45 ft x 8 in. thick, were used to form the deck. The panels were cast with holes and positioned on top of supporting stringers with bearing pads measuring 2 in. x 6 in. x 1 in. thick. Steel stud connectors were welded to the top flanges through the holes. Keyways between adjacent panels and deck-stringer gaps were sealed to retain epoxy mortar that was poured through the deck openings. The panels were placed in an operation lasting about 5 hours. Welding the studs, sealing the connections, and pouring the epoxy mortar took about 20 hours. Full-scale load tests were conducted on the redecked span by placing a 13-ton vehicle at different locations while live-load deflections were recorded. A full-composite, finite element model of the bridge was used to correlate the measured deflections. The comparison of measured and full-composite deflections of the model indicates that the span behaves in a full-composite manner.