Shaking table test and numerical simulation of a 1/2-scale self-centering reinforced concrete frame

Summary Self‐centering reinforced concrete frames are developed as an alternative of traditional seismic force‐resisting systems with better seismic performance and re‐centering capability. This paper presents an experimental and computational study on the seismic performance of self‐centering reinf...

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Veröffentlicht in:	Earthquake engineering & structural dynamics 2015-10, Vol.44 (12), p.1899-1917
Hauptverfasser:	Lu, Xilin, Cui, Ye, Liu, Jingjing, Gao, Wenjun
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Sprache:	eng
Schlagworte:	Computer simulation Dynamics Earthquake design Earthquakes Frames Mathematical models numerical model Reinforced concrete reinforced concrete frame Seismic phenomena Seismic response self-centering system shaking table test
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creator	Lu, Xilin Cui, Ye Liu, Jingjing Gao, Wenjun
description	Summary Self‐centering reinforced concrete frames are developed as an alternative of traditional seismic force‐resisting systems with better seismic performance and re‐centering capability. This paper presents an experimental and computational study on the seismic performance of self‐centering reinforced concrete frames. A 1/2‐scale model of a two‐story self‐centering reinforced concrete frame model was designed and tested on the shaking table in State Key Laboratory of Disaster Reduction in Civil Engineering at Tongji University to evaluate the seismic behavior of the structure. A structural analysis model, including detailed modeling of beam–column joints, column–base joints, and prestressed tendons, was constructed in the nonlinear dynamic modeling software OpenSEES. Agreements between test results and numerical solutions indicate that the designed reinforced concrete frame has satisfactory seismic performance and self‐centering capacity subjected to earthquakes; the self‐centering structures can undergo large rocking with minor residual displacement after the earthquake excitations; the proposed analysis procedure can be applied in simulating the seismic performance of self‐centering reinforced concrete frames. To achieve a more comprehensive evaluation on the performance of self‐centering structures, research on energy dissipation devices in the system is expected. Copyright © 2015 John Wiley & Sons, Ltd.
doi_str_mv	10.1002/eqe.2560
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Agreements between test results and numerical solutions indicate that the designed reinforced concrete frame has satisfactory seismic performance and self‐centering capacity subjected to earthquakes; the self‐centering structures can undergo large rocking with minor residual displacement after the earthquake excitations; the proposed analysis procedure can be applied in simulating the seismic performance of self‐centering reinforced concrete frames. To achieve a more comprehensive evaluation on the performance of self‐centering structures, research on energy dissipation devices in the system is expected. 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Agreements between test results and numerical solutions indicate that the designed reinforced concrete frame has satisfactory seismic performance and self‐centering capacity subjected to earthquakes; the self‐centering structures can undergo large rocking with minor residual displacement after the earthquake excitations; the proposed analysis procedure can be applied in simulating the seismic performance of self‐centering reinforced concrete frames. To achieve a more comprehensive evaluation on the performance of self‐centering structures, research on energy dissipation devices in the system is expected. 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subjects	Computer simulation Dynamics Earthquake design Earthquakes Frames Mathematical models numerical model Reinforced concrete reinforced concrete frame Seismic phenomena Seismic response self-centering system shaking table test
title	Shaking table test and numerical simulation of a 1/2-scale self-centering reinforced concrete frame
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