OMA-driven structural assessment to prevent fatigue-induced failure in steel bridges

Guangli Du; Rune Brincker; Sandro Diord Rescinho Amador; Umberto  Alibrandi

doi:10.1201/9781003483755-200

OMA-driven structural assessment to prevent fatigue-induced failure in steel bridges

Guangli Du, Rune Brincker, Sandro Diord Rescinho Amador, Umberto Alibrandi

Research output: Contribution to book/anthology/report/conference proceeding › Article in proceeding › Research › peer-review

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Abstract

Fatigue cracks in steel bridges can lead to catastrophic failure and cause significant risks to public safety. These cracks can grow, propagate, reduce the structure maximum design capaci-ty, and ultimately lead to a sudden failure. Fatigue cracks in steel bridges are primarily induced by the cyclic loading from constant traffic loads over time. Therefore, monitoring fatigue on steel bridges is essential to ensure structural safety. Operational modal analysis (OMA) is a non-destructive testing technique that can be used to monitor fatigue-induced damage through changes in modal parameters. When the fatigue crack grows, the stiffness of the beam will re-duce. This study implements OMA on a simply supported steel beam with changing stiffness. The natural frequencies and mode shapes of the beam are obtained through OMA, and com-bined with a model to predict the stress/strains at any point of the structure. The case study shows how maximum stresses and the natural frequencies that are affected by the crack growth are varying due to changes in stiffness. The result demonstrates that by combining OMA with fatigue assessment, the risk of fatigue failure in steel bridges can be significantly reduced.

Original language	English
Title of host publication	Bridge Maintenance, Safety, Management, Digitalization and Sustainability : Proceedings of the 12th International Conference on Bridge Maintenance, Safety and Management, 24-28 june 2024, Copenhagen, Denmark
Editors	Jens Sandager Jensen, Dan M. Frangopol, Jacob Wittrup Schmidt
Number of pages	7
Place of Publication	London
Publisher	CRC Press
Publication date	12 Jun 2024
Edition	1st
Pages	1712-1718
ISBN (Print)	978-1-032-77040-6, 978-1-032-77560-9
ISBN (Electronic)	978-1-003-48375-5
DOIs	https://doi.org/10.1201/9781003483755-200
Publication status	Published - 12 Jun 2024
Event	12th International Conference on Bridge Maintenance, Safety and Management, IABMAS 2024 - Copenhagen, Denmark Duration: 24 Jun 2024 → 28 Jun 2024

Conference

Conference	12th International Conference on Bridge Maintenance, Safety and Management, IABMAS 2024
Country/Territory	Denmark
City	Copenhagen
Period	24/06/2024 → 28/06/2024

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Du, G., Brincker, R., Diord Rescinho Amador, S., & Alibrandi, U. (2024). OMA-driven structural assessment to prevent fatigue-induced failure in steel bridges. In J. S. Jensen, D. M. Frangopol, & J. W. Schmidt (Eds.), Bridge Maintenance, Safety, Management, Digitalization and Sustainability: Proceedings of the 12th International Conference on Bridge Maintenance, Safety and Management, 24-28 june 2024, Copenhagen, Denmark (1st ed., pp. 1712-1718). CRC Press. https://doi.org/10.1201/9781003483755-200

Du, Guangli ; Brincker, Rune ; Diord Rescinho Amador, Sandro et al. / OMA-driven structural assessment to prevent fatigue-induced failure in steel bridges. Bridge Maintenance, Safety, Management, Digitalization and Sustainability: Proceedings of the 12th International Conference on Bridge Maintenance, Safety and Management, 24-28 june 2024, Copenhagen, Denmark. editor / Jens Sandager Jensen ; Dan M. Frangopol ; Jacob Wittrup Schmidt. 1st. ed. London : CRC Press, 2024. pp. 1712-1718

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abstract = "Fatigue cracks in steel bridges can lead to catastrophic failure and cause significant risks to public safety. These cracks can grow, propagate, reduce the structure maximum design capaci-ty, and ultimately lead to a sudden failure. Fatigue cracks in steel bridges are primarily induced by the cyclic loading from constant traffic loads over time. Therefore, monitoring fatigue on steel bridges is essential to ensure structural safety. Operational modal analysis (OMA) is a non-destructive testing technique that can be used to monitor fatigue-induced damage through changes in modal parameters. When the fatigue crack grows, the stiffness of the beam will re-duce. This study implements OMA on a simply supported steel beam with changing stiffness. The natural frequencies and mode shapes of the beam are obtained through OMA, and com-bined with a model to predict the stress/strains at any point of the structure. The case study shows how maximum stresses and the natural frequencies that are affected by the crack growth are varying due to changes in stiffness. The result demonstrates that by combining OMA with fatigue assessment, the risk of fatigue failure in steel bridges can be significantly reduced.",

author = "Guangli Du and Rune Brincker and {Diord Rescinho Amador}, Sandro and Umberto Alibrandi",

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Du, G, Brincker, R, Diord Rescinho Amador, S & Alibrandi, U 2024, OMA-driven structural assessment to prevent fatigue-induced failure in steel bridges. in JS Jensen, DM Frangopol & JW Schmidt (eds), Bridge Maintenance, Safety, Management, Digitalization and Sustainability: Proceedings of the 12th International Conference on Bridge Maintenance, Safety and Management, 24-28 june 2024, Copenhagen, Denmark. 1st edn, CRC Press, London, pp. 1712-1718, 12th International Conference on Bridge Maintenance, Safety and Management, IABMAS 2024, Copenhagen, Denmark, 24/06/2024. https://doi.org/10.1201/9781003483755-200

OMA-driven structural assessment to prevent fatigue-induced failure in steel bridges. / Du, Guangli; Brincker, Rune; Diord Rescinho Amador, Sandro et al.
Bridge Maintenance, Safety, Management, Digitalization and Sustainability: Proceedings of the 12th International Conference on Bridge Maintenance, Safety and Management, 24-28 june 2024, Copenhagen, Denmark. ed. / Jens Sandager Jensen; Dan M. Frangopol; Jacob Wittrup Schmidt. 1st. ed. London: CRC Press, 2024. p. 1712-1718.

Research output: Contribution to book/anthology/report/conference proceeding › Article in proceeding › Research › peer-review

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AB - Fatigue cracks in steel bridges can lead to catastrophic failure and cause significant risks to public safety. These cracks can grow, propagate, reduce the structure maximum design capaci-ty, and ultimately lead to a sudden failure. Fatigue cracks in steel bridges are primarily induced by the cyclic loading from constant traffic loads over time. Therefore, monitoring fatigue on steel bridges is essential to ensure structural safety. Operational modal analysis (OMA) is a non-destructive testing technique that can be used to monitor fatigue-induced damage through changes in modal parameters. When the fatigue crack grows, the stiffness of the beam will re-duce. This study implements OMA on a simply supported steel beam with changing stiffness. The natural frequencies and mode shapes of the beam are obtained through OMA, and com-bined with a model to predict the stress/strains at any point of the structure. The case study shows how maximum stresses and the natural frequencies that are affected by the crack growth are varying due to changes in stiffness. The result demonstrates that by combining OMA with fatigue assessment, the risk of fatigue failure in steel bridges can be significantly reduced.

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Du G, Brincker R, Diord Rescinho Amador S, Alibrandi U. OMA-driven structural assessment to prevent fatigue-induced failure in steel bridges. In Jensen JS, Frangopol DM, Schmidt JW, editors, Bridge Maintenance, Safety, Management, Digitalization and Sustainability: Proceedings of the 12th International Conference on Bridge Maintenance, Safety and Management, 24-28 june 2024, Copenhagen, Denmark. 1st ed. London: CRC Press. 2024. p. 1712-1718 doi: 10.1201/9781003483755-200

OMA-driven structural assessment to prevent fatigue-induced failure in steel bridges

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Bridge Maintenance, Safety, Management, Digitalization and Sustainability: Proceedings of the 12th International Conference on Bridge Maintenance, Safety and Management, 24-28 june 2024, Copenhagen, Denmark

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