Abstract
The peak storey drift demands that an earthquake imposes on a building can be assessed through a detailed engineering seismic assessment or recorded if a building is instrumented. However, for the rapid seismic assessment of a large number of buildings, it is desirable to have a simplified means of estimating storey drift demands. Consequently, this paper proposes a simplified means of quickly estimating storey drift demands on reinforced concrete (RC) frame buildings. Expressions for peak storey drift demand as a function of ground motion intensity are developed by utilising concepts and simplifications available from displacement-based seismic design and assessment methods. The performance of the approach is gauged by comparing predicted storey drift demands with those obtained from rigorous non-linear time-history analyses for a number of case study buildings. The promising results suggest that the approach proposed will be useful for rapidly assessing the likelihood of damage to a range of drift-sensitive elements in modern RC frame buildings.
Highlights
The 2010-2011 Canterbury earthquakes and the 2016 Kaikoura earthquake have highlighted the vulnerability of ductile reinforced concrete (RC) frame buildings to seismic shaking
In order to provide a rapid means of assessing the likely impact of an earthquake on modern RC frame buildings, this paper proposes a simplified means of quickly estimating storey drift demands
This paper has proposed a simplified means of quickly estimating storey drift demands on RC frame buildings
Summary
The 2010-2011 Canterbury earthquakes and the 2016 Kaikoura earthquake have highlighted the vulnerability of ductile reinforced concrete (RC) frame buildings to seismic shaking. In the days following the Kaikoura earthquake, reports of damage to the Statistics House building and other buildings with precast floors prompted the need for rapid assessment of a large building stock. This was addressed by the Wellington City Council initiating targeted damage evaluations based on building typology and location [2]. It is recognised [3,4] that the likelihood of observing damage to precast floors can be related to the storey drift demands. The performance of the approach will be gauged by comparing predicted storey drift demands with those obtained from rigorous non-linear time-history (NLTH) analyses for a number of case study buildings
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