Investigation of Negative Moment Reinforcing in Bridge Decks Investigation of Negative Moment Reinforcing in Bridge Decks Investigation of Negative Moment Reinforcing in Bridge Decks

Research Project


Investigation of Negative Moment Reinforcing in Bridge Decks

Image: One of the field-tested bridges

One of five bridges that had strain gauges installed on the decks and girders at several transverse sections for field tests and inspections


Principal investigators: Brent Phares, 515-294-5879, (project list), Iowa State University

Co-principal investigators:

Project status


Start date: 05/01/13
End date: 09/30/15


Report: September 2015, Investigation of Negative Moment Reinforcing in Bridge Decks 6.62 mb (*pdf)

Related publications: Investigation of Negative Moment Reinforcing in Bridge Decks 780.28 kb *pdf September 2015

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Sponsor(s): Iowa Department of Transportation
Iowa Highway Research Board

About the research


Multi-span pre-tensioned pre-stressed concrete beam (PPCB) bridges made continuous usually experience a negative live load moment region over the intermediate supports. Conventional thinking dictates that sufficient reinforcement must be provided in this region to satisfy the strength and serviceability requirements associated with the tensile stresses in the deck. The American Association of State Highway and Transportation Officials (AASHTO) Load and Resistance Factor Design (LRFD) Bridge Design Specifications recommend the negative moment reinforcement (b2 reinforcement) be extended beyond the inflection point.

However, based upon satisfactory previous performance and judgment, the Iowa Department of Transportation (DOT) Office of Bridges and Structures (OBS) currently terminates b2 reinforcement at 1/8 of the span length. Although the Iowa DOT policy results in approximately 50% shorter b2 reinforcement than the AASHTO LRFD specifications, the Iowa DOT has not experienced any significant deck cracking over the intermediate supports.

The primary objective of this project was to investigate the Iowa DOT OBS policy regarding the required amount of b2 reinforcement to provide the continuity over bridge decks. Other parameters, such as termination length, termination pattern, and effects of the secondary moments, were also studied.

Live load tests were carried out on five bridges. The data were used to calibrate three-dimensional finite element models of two bridges. Parametric studies were conducted on the bridges with an uncracked deck, a cracked deck, and a cracked deck with a cracked pier diaphragm for live load and shrinkage load testing. The general conclusions were as follows:

·         The parametric study results show that an increased area of the b2 reinforcement slightly reduces the strain over the pier, whereas an increased length and staggered reinforcement pattern slightly reduce the strains of the deck at 1/8 of the span length.

·         Finite element modeling results suggest that the transverse field cracks over the pier and at 1/8 of the span length are mainly due to deck shrinkage.

·         Bridges with larger skew angles have lower strains over the intermediate supports.

·         Secondary moments affect the behavior in the negative moment region. The impact may be significant enough such that no tensile stresses in the deck may be experienced.

2711 S. Loop Drive, Suite 4700, Ames, Iowa 50010-8664
Phone: 515-294-9501 ~ Fax: 515-294-0467
The Bridge Engineering Center is administered by Iowa State University's Institute for Transportation.

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