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Distinct element modeling of the dynamic response of a rocking podium tested on a shake table

Daniele Malomo, Anjali Mehrotra, Matthew J. DeJong

2020Earthquake Engineering & Structural Dynamics35 citationsDOIOpen Access PDF

Abstract

Abstract A blind prediction contest was organized to evaluate the ability of different modeling approaches to simulate the seismic rocking response of a full‐scale four‐column podium structure. The structure was tested on a shake table, and was subjected to two bidirectional ground motion ensembles comprising 100 synthetic records each. This short communication presents the main assumptions and results from the model, developed using the distinct element method, which provided the second‐best prediction of the experimental results. A comparison of the model predictions and the experimental results demonstrates that the numerical model was generally able to reproduce the large displacements induced by the more intense ground motion ensemble, while tending to overestimate the displacements of the less intense earthquake ensemble. This overestimation of the response was reduced through the inclusion of damping in the system. However, the addition of damping greatly increased the solve time, which is problematic for a competition, and in the case of the more intense ground motion ensemble also resulted in an underprediction of the maximum response of the structure.

Topics & Concepts

Earthquake shaking tableGround motionShakeStructural engineeringResponse analysisFinite element methodScale (ratio)EngineeringGeologyPhysicsMechanical engineeringQuantum mechanicsSeismic Performance and AnalysisStructural Health Monitoring TechniquesStructural Engineering and Vibration Analysis
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