Journal
EARTHQUAKE ENGINEERING & STRUCTURAL DYNAMICS
Volume 37, Issue 14, Pages 1585-1607Publisher
WILEY
DOI: 10.1002/eqe.827
Keywords
inelastic demand; damage potential; accelerogram selection; accelerogram scaling; accelerogram matching
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Funding
- EPSRC
- Marie Curie Fellowship
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Selecting, scaling and matching accelerograms are critically important to engineering design and assessment, enabling structural response to be determined with greater confidence and through fewer analyses than if unseated accelerograms are employed. This paper considers the response of an 8-storey multiple-degree- -of-freedom reinforced concrete structure to accelerograms selected, linearly scaled or spectrally matched using five different techniques. The first method consists of selecting real records on the basis of seismological characteristies, while the remaining methods make an initial selection on the basis of magnitude and spectral shape before (1) scaling to the target spectral acceleration at the initial period; (2) scaling to the tar-et spectrum over a range of periods; (3) using wavelet adjustments to match the target spectrum and (4) using wavelet adjustments for multiple damping ratios. Justments to match multiple target spectra The analyses indicate that the number of records required to obtain a stable estimate of the response decreases drastically as one moves through these methods. The exact number varies among damage measures and is related to the predictability of the damage measure. For Measures Such as peak roof and inter-storey drift. member end rotation and the Park and Ang damage index, as few as one or two records are required to estimate the response to within +/- 5% (for a 64% confidence level) if matching to multiple damping ratios is conducted. Bias checks are made using predictive equations of the expected response derived from the results of 1656 nonlinear time-domain analyses of the structure under the action of unsealed accelerograms. Copyright (C) 2008 John Wiley & Sons, Ltd.
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