Detection of bridge damage through analysis of dynamic response to vehicular loads utilizing long-gauge sensors
International Journal of Structural Integrity
ISSN: 1757-9864
Article publication date: 12 July 2024
Issue publication date: 20 August 2024
Abstract
Purpose
This paper presents a novel method for identifying damage in reinforced concrete (RC) bridges, utilizing macro-strain data from distributed long-gauge sensors installed on the concrete surface.
Design/methodology/approach
The method relies on the principle that heavy vehicles induce larger dynamic vibrations, leading to increased strain and crack formation compared to lighter vehicles. By comparing the absolute macro-strain ratio (AMSR) of a reference sensor with a network of distributed sensors, damage locations can be effectively pinpointed from a single data collection session. Finite-element modeling was employed to validate the method's efficacy, demonstrating that the AMSR ratio increases significantly in the presence of cracks. Experimental validation was conducted on a real-world bridge in Japan, confirming the method's reliability under normal traffic conditions.
Findings
This approach offers a practical and efficient means of detecting bridge damage, potentially enhancing the safety and longevity of infrastructure systems.
Originality/value
Original research paper.
Keywords
Acknowledgements
The authors wish to thank all the people who collaborated in the success of this project, including Ibaraki University which helped in preparing the sensors in the structural laboratory of the Graduate School of Science and Engineering.
Citation
Saifeldeen, M., Monier, A. and Fouad, N. (2024), "Detection of bridge damage through analysis of dynamic response to vehicular loads utilizing long-gauge sensors", International Journal of Structural Integrity, Vol. 15 No. 4, pp. 811-831. https://doi.org/10.1108/IJSI-04-2024-0059
Publisher
:Emerald Publishing Limited
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