期刊
JOURNAL OF EARTHQUAKE ENGINEERING
卷 27, 期 14, 页码 3992-4004出版社
TAYLOR & FRANCIS LTD
DOI: 10.1080/13632469.2022.2156635
关键词
Near-fault ground motion; velocity-pulse; acceleration pulse; inelastic displacement ratio; single-degree-of-freedom system
This study develops new equations for predicting the constant-strength inelastic displacement ratio (C-R) by considering nonlinear single-degree-of-freedom systems subjected to near-fault ground motions. A energy-based parameter, the MEA/MEV ratio, is adopted to characterize the properties of pulse-like records, and its effect on the C-R spectra is investigated. A simplified equation for estimating the C-R spectra is developed, and its accuracy is evaluated.
This study develops new equations for predicting the constant-strength inelastic displacement ratio (C-R) by considering nonlinear single-degree-of-freedom systems subjected to near-fault ground motions. To this aim, an energy-based parameter, the MEA/MEV ratio, is firstly considered for characterizing the properties of pulse-like records. MEA and MEV represent the Maximum Energy of the half-cycle pulse in Acceleration and Velocity time histories, respectively. The effects of the MEA/MEV ratio on the C-R spectra are investigated in terms of elastic-perfectly plastic hysteretic behavior. Finally, a simplified equation for estimating the C-R spectra is developed, and its accuracy is evaluated by calculating the error measures.
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