Dynamic response and post-impact damage assessment of steel reinforced concrete columns under lateral impact loads

Steel reinforced concrete (SRC) columns exposed to collision risks need to be designed to resist impact loads. Since SRC columns are key vertical load-bearing members, assessing collapse risk and residual capacity of columns after impact is essential. This paper studies the impact resistance of SRC...

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Published inEngineering structures Vol. 328; p. 119735
Main Authors Wei, Jinghui, Xue, Jianyang, Hu, Zongbo, Qi, Liangjie, Xu, Jinjun
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.04.2025
Subjects
Compression test after impact
Finite element simulation
Impact behavior
Residual axial capacity
Steel reinforced concrete
Steel reinforced concrete
Impact behavior
Residual axial capacity
Compression test after impact
Finite element simulation
Online AccessGet full text
ISSN0141-0296
DOI10.1016/j.engstruct.2025.119735

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Abstract Steel reinforced concrete (SRC) columns exposed to collision risks need to be designed to resist impact loads. Since SRC columns are key vertical load-bearing members, assessing collapse risk and residual capacity of columns after impact is essential. This paper studies the impact resistance of SRC columns subjected to horizontal impact loads and the residual mechanical properties of impact-damaged columns under axial load. First, dynamic impact tests were performed on five SRC columns to study the influence of impact location on the dynamic behavior of the SRC columns. The impact process, damage patterns, impact forces, and lateral displacements were analyzed to elucidate the working mechanism. Test results show that the damage mode of columns converts from shear-dominated damage to flexure-dominated damage as the impact height increases. Then, static compressive tests were performed on one undamaged SRC column and five impact-damaged SRC columns to obtain the failure modes and axial load-carrying capacities. The findings demonstrate that impact-induced damage patterns affect final failure modes observed in residual axial compression tests. Finally, finite element (FE) models were established and validated against the results of both impact and axial compression tests. The FE model was used to obtain the distributions of sectional shear forces, sectional bending moments, and impact energy among each component of the SRC column, as well as to analyze the influences of axial load ratio and impact velocity on impact behavior. Based on the result of the FE analysis, an empirical formula is proposed for predicting the residual strength of SRC columns after impact. •The impact resistance and damage mechanism of SRC columns were investigated.•The residual mechanical properties of impact-damaged SRC columns were investigated.•FE models were established and validated against the experimental results.•A formula was proposed to predict the residual strength of SRC columns after impact.•This study can provide a theoretical basis for evaluation and retrofit of columns under a collision.
AbstractList Steel reinforced concrete (SRC) columns exposed to collision risks need to be designed to resist impact loads. Since SRC columns are key vertical load-bearing members, assessing collapse risk and residual capacity of columns after impact is essential. This paper studies the impact resistance of SRC columns subjected to horizontal impact loads and the residual mechanical properties of impact-damaged columns under axial load. First, dynamic impact tests were performed on five SRC columns to study the influence of impact location on the dynamic behavior of the SRC columns. The impact process, damage patterns, impact forces, and lateral displacements were analyzed to elucidate the working mechanism. Test results show that the damage mode of columns converts from shear-dominated damage to flexure-dominated damage as the impact height increases. Then, static compressive tests were performed on one undamaged SRC column and five impact-damaged SRC columns to obtain the failure modes and axial load-carrying capacities. The findings demonstrate that impact-induced damage patterns affect final failure modes observed in residual axial compression tests. Finally, finite element (FE) models were established and validated against the results of both impact and axial compression tests. The FE model was used to obtain the distributions of sectional shear forces, sectional bending moments, and impact energy among each component of the SRC column, as well as to analyze the influences of axial load ratio and impact velocity on impact behavior. Based on the result of the FE analysis, an empirical formula is proposed for predicting the residual strength of SRC columns after impact. •The impact resistance and damage mechanism of SRC columns were investigated.•The residual mechanical properties of impact-damaged SRC columns were investigated.•FE models were established and validated against the experimental results.•A formula was proposed to predict the residual strength of SRC columns after impact.•This study can provide a theoretical basis for evaluation and retrofit of columns under a collision.
ArticleNumber 119735
Author Hu, Zongbo
Qi, Liangjie
Xue, Jianyang
Xu, Jinjun
Wei, Jinghui
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Keywords Steel reinforced concrete
Impact behavior
Residual axial capacity
Compression test after impact
Finite element simulation
Language English
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Snippet Steel reinforced concrete (SRC) columns exposed to collision risks need to be designed to resist impact loads. Since SRC columns are key vertical load-bearing...
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StartPage 119735
SubjectTerms Compression test after impact
Finite element simulation
Impact behavior
Residual axial capacity
Steel reinforced concrete
Title Dynamic response and post-impact damage assessment of steel reinforced concrete columns under lateral impact loads
URI https://dx.doi.org/10.1016/j.engstruct.2025.119735
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