Numerical Investigation of Residual Strength and Energy Dissipation Capacities of Corroded Bridge Members Under Earthquake Loading |
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| Authors: | J. M. R. S. Appuhamy M. Ohga P. Chun P. B. R. Dissanayake |
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| Affiliation: | 1. Department of Civil &2. Environmental Engineering , Ehime University , Matsuyama , Japan jmruwan@yahoo.com;4. Environmental Engineering , Ehime University , Matsuyama , Japan;5. Department of Civil Engineering , University of Peradeniya , Peradeniya , Sri Lanka |
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| Abstract: | Recent damage examples of aged steel bridge infrastructures around the world are so alarming. They intensified the importance of careful evaluation of existing structures for the feasibility of current usage and to ensure public safety. Corrosion and fatigue cracking may be the two most important types of damages in aging structures. Furthermore, recent earthquakes demonstrated potential seismic vulnerability of some types of steel bridges. Corrosion and its effects can trigger the damages caused by earthquakes, and it will be vital to understand the behavior of existing steel bridges which are corroding for decades in future severe seismic events as well. This article comprises the results of nonlinear FEM analysis of many actual corroded plates with different corrosion conditions and proposes a simple and reliable methodology to estimate remaining seismic strength and energy dissipation capacities by measuring only the minimum thickness of a corroded surface, which can be used to make rational decisions about the maintenance management plan of steel infrastructures. |
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| Keywords: | Corrosion Earthquakes Steel Bridges Numerical Analysis Residual Strength Energy Dissipation Capacity |
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