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Correlation Analysis of Ground Motion Duration Indexes and Nonlinear Seismic Responses of a Long-span Continuous Rigid-Frame Bridge with High-Rise Piers

Yan Shi, Jun Li, Hongguo Qin, Zhengwu Zhong, Junwen Wang, Fenjie Zhang

2021Journal of Earthquake Engineering17 citationsDOI

Abstract

To investigate the correlations of duration indexes and the nonlinear seismic responses of long-span continuous rigid-frame bridges with high-rise piers (CRFB-LH), an irregular CRFB-LH was selected as the prototype bridge. A construction stage analysis model was simulated in MIDAS/Civil, where the actual construction process was considered and the internal force state was extracted. After that, a nonlinear dynamic analysis model of the CRFB-LH with the equivalent internal force state was simulated via OpenSees. A bracketed duration and significant duration with a continuous-time interval were selected as the duration indexes. Sixty ground motion records with total duration values ranging from 9.91 s to 300 s were used in the nonlinear dynamic analysis. The correlation between the two duration indexes and the nonlinear seismic responses of the CRFB-LH under total-duration ground motions were analyzed. Finally, the effect of different duration indexes on the nonlinear seismic responses of the CRFB-LH was discussed under 30 long-duration ground motions intercepted according to Db0.1g, Ds5-75% and Ds5-95%. The numerical results show that the correlations of Ds with nonlinear seismic responses are better than those of Db, and the latter heavily depends on the absolute acceleration threshold. Ds5-95% is preferred for calculating the total hysteretic energy dissipated (HED) from the CRFB-LH. Additionally, while the amount of total HED is not determined by the total duration, the effective time interval of the ground motion duration under different duration indexes has a significant influence on the total HED.

Topics & Concepts

OpenSeesDuration (music)Structural engineeringNonlinear systemAccelerationIncremental Dynamic AnalysisPeak ground accelerationMathematicsSeismic analysisGround motionEngineeringPhysicsFinite element methodClassical mechanicsAcousticsQuantum mechanicsSeismic Performance and AnalysisStructural Engineering and Vibration AnalysisGeotechnical Engineering and Underground Structures