Recieved:

19/03/2026

Accepted:

21/06/2026

Page: 

doi:

http://dx.doi.org/10.17515/resm2026-1576st0319rs

Views:

11

Impact of seismic frequency content and pulse-like ground motions on the nonlinear response of RC high-rise buildings including soil-structure interaction

Denise-Penelope N. Kontoni 1,2, Ahmed Abdelraheem Farghaly 3, Mohamed Atef Mohamed 3

1Dept. of Civil Eng., School of Engineering, University of the Peloponnese, GR-26334 Patras, Greece
2School of Science and Technology, Hellenic Open University, GR-26335 Patras, Greece
3Dept. of Civil and Architectural Constructions, Faculty of Technology and Education, Sohag University, Sohag 82524, Egypt

Abstract

This study presents a numerical investigation into the sensitivity of a reinforced concrete (RC) high-rise moment-resisting frame building to key ground-motion characteristics, namely frequency content and the presence of forward-directivity pulse-like ground motions. A nonlinear finite-element model of a 15-story RC building incorporating soil-structure interaction (SSI) effects is subjected to five different earthquake ground-motion records, each characterized by distinct frequency content, peak ground acceleration, and waveform characteristics. The selected records are scaled to a consistent intensity level to isolate the effects of different wave shapes. Engineering demand parameters (EDPs), including lateral displacements, base shear, and base moments, are evaluated. The results demonstrate that variations in wave shape and frequency content significantly influence the structural response, leading to amplified lateral displacements, base shear, and base moments. Pulse-like ground motions can produce higher response demands than ordinary ground motions and result in notable lateral drift demands, highlighting the importance of explicitly considering pulse-like ground motions in seismic performance assessment. Moreover, low-frequency ground motions consistently lead to amplified responses in the upper stories. These findings underscore the necessity of explicitly considering pulse-like ground motions in the performance-based seismic assessment of high-rise buildings located in near-fault regions.

Keywords

Near-fault ground motions; Pulse-like ground motions; Frequency content; Nonlinear time-history analysis; Soil-structure Interaction; High-rise buildings; Reinforced concrete; Seismic performance

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