Inclusion of Crawl Tests and Long-Term Health Monitoring in Bridge Serviceability Analysis |
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Authors: | André D. Orcesi Dan M. Frangopol |
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Affiliation: | 1Research Associate, Laboratoire Central des Ponts et Chaussées, Section Durabilité des Ouvrages d’Art, Division Fonctionnement et Durabilité des Ouvrages d’Art, 58 Blvd. Lefebvre, F-75732 Paris Cedex 15, France. E-mail: andre.orcesi@lcpc.fr 2Professor and The Fazlur R. Kahn Endowed Chair of Structural Engineering and Architecture, Dept. of Civil and Environmental Engineering, ATLSS Center, Lehigh Univ., 117 ATLSS Dr., Bethlehem, PA 18015-4729 (corresponding author). E-mail: dan.frangopol@lehigh.edu
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Abstract: | Due to limited resources, structural health monitoring (SHM) of highway bridges has to be integrated in structural performance assessment in a cost-effective manner. The instrumentation and the long-term SHM procedures are generally chosen with emphasis on most critical bridge components for a particular failure mode. However, global structural analysis is necessary to obtain useful structural performance information. It is then a major challenge to use monitoring data at some locations to perform a structural reliability analysis at other locations. In this paper, a methodology for lifetime serviceability analysis of existing steel girder bridges including crawl tests and long-term monitoring information is presented. The case where the initial goal of monitoring is to provide data for a fatigue analysis of some bridge components is considered. The monitoring results are used to perform a structural reliability analysis of different sections that are critical considering serviceability of the bridge. Limit state equations are used firstly by adhering to the load and strength formulas and requirements set forth in AASHTO specifications, and secondly by integrating monitoring information. Serviceability with respect to permanent deformation under overload is estimated for the girders with these two different methods and a time-dependent performance analysis is conducted by considering corrosion penetration. The proposed approach is applied to the I-39 Northbound Bridge over the Wisconsin River in Wisconsin. A monitoring program of that bridge was performed by the Advanced Technology for Large Structural Systems Center at Lehigh University. |
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Keywords: | Structural reliability Monitoring Serviceability Bridges |
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