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Upgrading of ductility and shear capacity of reinforced concrete beams of highway bridge bents

Upgrading of ductility and shear capacity of reinforced concrete beams of highway bridge bents Two techniques to upgrade the ductility and the shear capacity of reinforced concrete beams of existing highway bridge bents were examined. An experimental programme that consisted of three scaled models was conducted. The specimens were tested using statically reversed cyclic loading. The first specimen was a control specimen. The beams of the other two specimens were upgraded. External steel plates were bonded to the beam in the first upgrading technique and external steel rods were employed in the second upgrading technique. The characteristic behaviour of each specimen was experimentally clarified in terms of hysteretic behaviour, displacement response ratio, maximum displacement, damage propagation, energy dissipation, equivalent damping factor, and final failure mode. The study revealed that the two upgrading techniques could result in enhancement of the overall behaviour of the bridge bents. Upgrading the beams utilising external steel rods, however, was shown to be more effective in resisting future earthquakes. Analytical modelling of the highway frames utilising FEM was performed. The numerical simulation resulted in a satisfactory accuracy of the predicted behaviour. A calibrated baseline FE model was derived and could be employed to quantitatively identify the strengthening effect on resulting behaviour of the bridge bents. The study provides an addition to the experimental data for ductility and shear capacity enhancement of bridge bents, and may assist selecting the most appropriate upgrading technique. http://www.deepdyve.com/assets/images/DeepDyve-Logo-lg.png Bridge Structures IOS Press

Upgrading of ductility and shear capacity of reinforced concrete beams of highway bridge bents

Zatar, W.; Mutsuyoshi, H.
Bridge Structures , Volume 5 (2) – Jan 1, 2009
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Publisher
IOS Press
Copyright
Copyright © 2009 by IOS Press, Inc
ISSN
1573-2487
eISSN
1744-8999
DOI
10.1080/15732480903142534
Publisher site
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Abstract

Two techniques to upgrade the ductility and the shear capacity of reinforced concrete beams of existing highway bridge bents were examined. An experimental programme that consisted of three scaled models was conducted. The specimens were tested using statically reversed cyclic loading. The first specimen was a control specimen. The beams of the other two specimens were upgraded. External steel plates were bonded to the beam in the first upgrading technique and external steel rods were employed in the second upgrading technique. The characteristic behaviour of each specimen was experimentally clarified in terms of hysteretic behaviour, displacement response ratio, maximum displacement, damage propagation, energy dissipation, equivalent damping factor, and final failure mode. The study revealed that the two upgrading techniques could result in enhancement of the overall behaviour of the bridge bents. Upgrading the beams utilising external steel rods, however, was shown to be more effective in resisting future earthquakes. Analytical modelling of the highway frames utilising FEM was performed. The numerical simulation resulted in a satisfactory accuracy of the predicted behaviour. A calibrated baseline FE model was derived and could be employed to quantitatively identify the strengthening effect on resulting behaviour of the bridge bents. The study provides an addition to the experimental data for ductility and shear capacity enhancement of bridge bents, and may assist selecting the most appropriate upgrading technique.

Journal

Bridge StructuresIOS Press

Published: Jan 1, 2009

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