Inelastic displacement demands in steel structures and their relationship with earthquake frequency content parameters

C. Málaga-Chuquitaype, A. Y. Elghazouli

Research output: Journal article publicationJournal articleAcademic researchpeer-review

26 Citations (Scopus)

Abstract

This paper deals with the estimation of peak inelastic displacements of SDOF systems, representative of typical steel structures, under constant relative strength scenarios. Mean inelastic deformation demands on bilinear systems (simulating moment resisting frames) are considered as the basis for comparative purposes. Additional SDOF models representing partially-restrained and concentrically-braced (CB) frames are introduced and employed to assess the influence of different force-displacement relationships on peak inelastic displacement ratios. The studies presented in this paper illustrate that the ratio between the overall yield strength and the strength during pinching intervals is the main factor governing the inelastic deformations of partially-restrained models and leading to significant differences when compared with predictions based on bilinear structures, especially in the short-period range. It is also shown that the response of CB systems can differ significantly from other pinching models when subjected to low or moderate levels of seismic demand, highlighting the necessity of employing dedicated models for studying the response of CB structures. Particular attention is also given to the influence of a number of scalar parameters that characterise the frequency content of the ground motion on the estimated peak displacement ratios. The relative merits of using the average spectral period Taver, mean period Tm, predominant period Tg, characteristic period Tc and smoothed spectral predominant period To of the earthquake ground motion, are assessed. This paper demonstrates that the predominant period, defined as the period at which the input energy is maximum throughout the period range, is the most suitable frequency content scalar parameter for reducing the variability in displacement estimations. Finally, noniterative equivalent linearisation expressions based on the secant period and equivalent damping ratios are presented and verified for the prediction of peak deformation demands in steel structures.

Original languageEnglish
Pages (from-to)831-852
Number of pages22
JournalEarthquake Engineering and Structural Dynamics
Volume41
Issue number5
DOIs
Publication statusPublished - 25 Apr 2012

Keywords

  • Earthquake displacement demands
  • Equivalent linearisation
  • Ground-motion frequency content
  • Inelastic displacement ratios
  • Steel structures

ASJC Scopus subject areas

  • Geotechnical Engineering and Engineering Geology
  • Earth and Planetary Sciences (miscellaneous)

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