期刊
EARTHQUAKE SPECTRA
卷 31, 期 1, 页码 501-525出版社
SAGE PUBLICATIONS INC
DOI: 10.1193/112912EQS339M
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-
资金
- U.S. National Science Foundation [CMMI-0800399]
The variations of identified wave velocities of vertically propagating waves through the structure are investigated for a 54-story steel-frame building in downtown Los Angeles, California, over a period of 19 years since construction (1992-2010), using records of six earthquakes. The set includes all significant earthquakes that shook this building, which produced maximum transient drift similar to 0.3% and caused no reported damage. Wave velocity profiles beta(z) are identified for the NS, EW, and torsional responses by fitting layered shear beam/torsional shaft models in the recorded responses, by waveform inversion of pulses in impulse response functions. The results suggest variations larger than the estimation error, with a coefficient of variation about 2-4.4%. About 10% permanent reduction of the building stiffness is detected, caused mainly by the Landers and Big Bear earthquake sequence of 28 June 1992, and the Northridge earthquake of 17 January 1994. Permanent changes of comparable magnitude were identified also in the first two apparent modal frequencies, f(1;app), and f(2;app), which were identified from the peaks of the transfer-function amplitudes.
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