Retrofit of RC frames against progressive collapse using prestressing tendons

SUMMARY This study investigates the effect of prestressing tendons on the progressive collapse performance of a 6‐ and 20‐story reinforced concrete model structures. According to nonlinear static and dynamic analysis results, the analysis model structures turned out to be vulnerable to progressive c...

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Veröffentlicht in:	The structural design of tall and special buildings 2013-03, Vol.22 (4), p.349-361
Hauptverfasser:	Kim, Jinkoo, Shin, Woo-Seung
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Sprache:	eng
Schlagworte:	Buildings Collapse Dynamic structural analysis post-tension Prestressing progressive collapse RC structures Reinforced concrete Retrofitting seismic performance Seismic response Tendons
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creator	Kim, Jinkoo Shin, Woo-Seung
description	SUMMARY This study investigates the effect of prestressing tendons on the progressive collapse performance of a 6‐ and 20‐story reinforced concrete model structures. According to nonlinear static and dynamic analysis results, the analysis model structures turned out to be vulnerable to progressive collapse caused by sudden loss of a first story column. However, the RC structures reinforced by external prestressing tendons along floor girders showed stable behavior against progressive collapse. The retrofit effect increased as the initial tension and cross‐sectional area of tendons increased. The incremental dynamic analyses showed that the seismic performance of the model structure was also enhanced after the retrofit using tendons. Based on analysis results, it was concluded that the retrofit of existing buildings using prestressing tendons could be effective for increasing both progressive collapse resisting capacity and seismic performance of RC framed structures. Copyright © 2011 John Wiley & Sons, Ltd.
doi_str_mv	10.1002/tal.691
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According to nonlinear static and dynamic analysis results, the analysis model structures turned out to be vulnerable to progressive collapse caused by sudden loss of a first story column. However, the RC structures reinforced by external prestressing tendons along floor girders showed stable behavior against progressive collapse. The retrofit effect increased as the initial tension and cross‐sectional area of tendons increased. The incremental dynamic analyses showed that the seismic performance of the model structure was also enhanced after the retrofit using tendons. Based on analysis results, it was concluded that the retrofit of existing buildings using prestressing tendons could be effective for increasing both progressive collapse resisting capacity and seismic performance of RC framed structures. 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Based on analysis results, it was concluded that the retrofit of existing buildings using prestressing tendons could be effective for increasing both progressive collapse resisting capacity and seismic performance of RC framed structures. 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subjects	Buildings Collapse Dynamic structural analysis post-tension Prestressing progressive collapse RC structures Reinforced concrete Retrofitting seismic performance Seismic response Tendons
title	Retrofit of RC frames against progressive collapse using prestressing tendons
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