Journal of Civil Engineering and Materials Application
Journal of Civil Engineering and Materials Application

Seismic Vulnerability Assessment of Low, Mid and High-Rise RC Buildings Subjected to Near-Fault Earthquakes Using Fragility Curves

https://doi.org/10.22034/jcema.2025.227518
Volume 9, Issue 1
Winter 2025
Pages 35-45
Journal of Civil Engineering and Materials Application

Document Type : Original Article

Authors

Navid Khedernejad
Mohammad Keyvan Latifi

Structural Engineering, Kurdistan Province Construction Engineering Organization-Iran.

Abstract
In this study, seismic vulnerability fragility curves were developed for special RC moment-resisting frames with 3, 7, and 15 stories, corresponding to low-, mid-, and high-rise buildings as defined by the HAZUS-MH 2.1 guidelines. The 2D frames were modeled and analyzed using nonlinear time history analysis in OpenSees software, subjected to 14 near-fault ground motion records. The interstory drift ratio was considered as the damage index. The drift limits specified in the HAZUS guidelines were used to define slight, moderate, extensive, and complete damage states based on the structural system type and the number of stories, in order to generate fragility curves. The analytical and numerical investigations revealed that, in the 3-story frame, the increase in damage levels relative to the slight damage level was 1.76, 4.71, and 14.58 times for moderate, extensive, and complete damage levels, respectively. For the 7-story frame, these increases were 0.98, 5.36, and 11.37 times, while for the 15-story frame, the corresponding values were 1.2, 2.34, and 7.46 times, respectively. Overall, it can be concluded that with an increase in the number of stories and Peak Ground Acceleration (PGA), seismic fragility increases. However, the 15-story frame exhibited the least probability of complete damage compared to the 7- and 3-story frames, whereas the 3-story frame experienced the highest likelihood of slight damage among all.

Keywords

RC Moment Frames
Time History Analysis
Near-Fault Earthquake
Fragility Curves
Subjects
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  • Receive Date 04 January 2025
  • Revise Date 19 February 2025
  • Accept Date 17 March 2025

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