Study on inelastic displacement ratio spectra for near-fault pulse-type ground motions 被引量：2

Study on inelastic displacement ratio spectra for near-fault pulse-type ground motions

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摘要 In displacement-based seismic design, inelastic displacement ratio spectra （IDRS） are particularly useful for estimating the maximum lateral inelastic displacement demand of a nonlinear SDOF system from the maximum elastic displacement demand of its counterpart linear elastic SDOF system. In this study, the characteristics of IDRS for near-fault pulse-type ground motions are investigated based on a great number of earthquake ground motions. The influence of site conditions, ratio of peak ground velocity （PGV） to peak ground acceleration （PGA）, the PGV, and the maximum incremental velocity （MIV） on IDRS are also evaluated. The results indicate that the effect of near-fault ground motions on IDRS are significant only at periods between 0.2 s - 1.5 s, where the amplification can approach 20%. The PGV/PGA ratio has the most significant influence on IDRS among the parameters considered. It is also found that site conditions only slightly affect the IDRS. In displacement-based seismic design, inelastic displacement ratio spectra （IDRS） are particularly useful for estimating the maximum lateral inelastic displacement demand of a nonlinear SDOF system from the maximum elastic displacement demand of its counterpart linear elastic SDOF system. In this study, the characteristics of IDRS for near-fault pulse-type ground motions are investigated based on a great number of earthquake ground motions. The influence of site conditions, ratio of peak ground velocity （PGV） to peak ground acceleration （PGA）, the PGV, and the maximum incremental velocity （MIV） on IDRS are also evaluated. The results indicate that the effect of near-fault ground motions on IDRS are significant only at periods between 0.2 s - 1.5 s, where the amplification can approach 20%. The PGV/PGA ratio has the most significant influence on IDRS among the parameters considered. It is also found that site conditions only slightly affect the IDRS.

作者翟长海李爽谢礼立孙亚民

机构地区 School of Civil Engineering Institute of Engineering Mechanics

出处《Earthquake Engineering and Engineering Vibration》 SCIE EI CSCD 2007年第4期351-355,共5页 地震工程与工程振动（英文刊）

基金 National Natural Science Foundation of China Under Grants No. 50608024 andNo.50538050 Opening Laboratory of Earthquake Engineering and Engineering Vibration Foundation Under Grant No.2007001

关键词 near-fault pulse-type ground motion inelastic displacement ratio spectrum ground motion parameter PGV/PGA site condition near-fault pulse-type ground motion inelastic displacement ratio spectrum ground motion parameter PGV/PGA site condition

分类号 P315.9 [天文地球—地震学]

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