Reinforcement of arch structures under blast loads: a sustainable approach to structural enhancement

Amin Bagherzadeh Azar; Ali Sari

doi:10.1080/24705314.2025.2457913

Reinforcement of arch structures under blast loads: a sustainable approach to structural enhancement

Amin Bagherzadeh Azar^*, Ali Sari

^*Corresponding author for this work

Department of Civil Engineering

Istanbul Technical University

Research output: Contribution to journal › Article › peer-review

Abstract

This study investigates the effectiveness of strengthening masonry arch bridges using steel rebars embedded within the arch structure to enhance their blast resistance. A comprehensive numerical analysis is conducted using Abaqus software, where a VUMAT code is developed to accurately model the nonlinear behavior of materials. The analysis is complemented by comparing the behavior of strengthened and un-strengthened arches subjected to shock waves. Results demonstrate an improvement in the structural resilience of the reinforced arches, including reduced deformation, increased load-bearing capacity, and delayed failure mechanisms under high-intensity blasts. The findings offer practical insights for the preservation and fortification of masonry arch bridges, providing a reliable solution for enhancing their durability in the face of modern threats.

Original language	English
Article number	2457913
Journal	Journal of Structural Integrity and Maintenance
Volume	10
Issue number	1
DOIs	https://doi.org/10.1080/24705314.2025.2457913
Publication status	Published - 2025

Bibliographical note

Publisher Copyright:
© 2025 Korea Institute for Structural Maintenance and Inspection.

Keywords

Arch
blast wave
finite element analysis
masonry bridge
strengthening solution

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10.1080/24705314.2025.2457913

Cite this

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abstract = "This study investigates the effectiveness of strengthening masonry arch bridges using steel rebars embedded within the arch structure to enhance their blast resistance. A comprehensive numerical analysis is conducted using Abaqus software, where a VUMAT code is developed to accurately model the nonlinear behavior of materials. The analysis is complemented by comparing the behavior of strengthened and un-strengthened arches subjected to shock waves. Results demonstrate an improvement in the structural resilience of the reinforced arches, including reduced deformation, increased load-bearing capacity, and delayed failure mechanisms under high-intensity blasts. The findings offer practical insights for the preservation and fortification of masonry arch bridges, providing a reliable solution for enhancing their durability in the face of modern threats.",

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AB - This study investigates the effectiveness of strengthening masonry arch bridges using steel rebars embedded within the arch structure to enhance their blast resistance. A comprehensive numerical analysis is conducted using Abaqus software, where a VUMAT code is developed to accurately model the nonlinear behavior of materials. The analysis is complemented by comparing the behavior of strengthened and un-strengthened arches subjected to shock waves. Results demonstrate an improvement in the structural resilience of the reinforced arches, including reduced deformation, increased load-bearing capacity, and delayed failure mechanisms under high-intensity blasts. The findings offer practical insights for the preservation and fortification of masonry arch bridges, providing a reliable solution for enhancing their durability in the face of modern threats.

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Reinforcement of arch structures under blast loads: a sustainable approach to structural enhancement

Abstract

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Keywords

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