Performance-Based Assessment Methodology for Retrofit of Buildings

AbstractPostearthquake reconnaissance and recent research on seismic risk analysis have shown that nonductile concrete frame structures are much more susceptible to collapse than modern code-conforming frames. The performance-based assessment paradigm has been a persistent research theme over the la...

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Veröffentlicht in:	Journal of structural engineering (New York, N.Y.) N.Y.), 2019-12, Vol.145 (12)
Hauptverfasser:	Miano, Andrea, Sezen, Halil, Jalayer, Fatemeh, Prota, Andrea
Format:	Artikel
Sprache:	eng
Schlagworte:	Aseismic buildings Axial loads Collapse Cost analysis Cost estimates Earthquakes Frame structures Life cycle analysis Life cycle assessment Life cycle costs Longitude Optimization Risk analysis Seismic analysis Seismic engineering Seismic hazard Structural engineering Technical Papers
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container_title	Journal of structural engineering (New York, N.Y.)
container_volume	145
creator	Miano, Andrea Sezen, Halil Jalayer, Fatemeh Prota, Andrea
description	AbstractPostearthquake reconnaissance and recent research on seismic risk analysis have shown that nonductile concrete frame structures are much more susceptible to collapse than modern code-conforming frames. The performance-based assessment paradigm has been a persistent research theme over the last decade within the earthquake engineering community in order to estimate seismic fragilities and earthquake loss for these nonductile concrete frames. This paper proposes a nonlinear performance-based methodology to evaluate different retrofit methods considering hazard level, target performance levels, and life-cycle cost estimates. The structural performance is the main parameter considered for the optimization, although a life-cycle cost analysis is also presented. As a case study, the longitudinal frame of an existing building was modeled considering the effect of flexural-shear-axial load interaction in order to capture column shear and axial failures. The presented performance-based procedure identifies the most economic retrofit solution that satisfies structural response requirements for a given performance level.
doi_str_mv	10.1061/(ASCE)ST.1943-541X.0002419
format	Article
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The performance-based assessment paradigm has been a persistent research theme over the last decade within the earthquake engineering community in order to estimate seismic fragilities and earthquake loss for these nonductile concrete frames. This paper proposes a nonlinear performance-based methodology to evaluate different retrofit methods considering hazard level, target performance levels, and life-cycle cost estimates. The structural performance is the main parameter considered for the optimization, although a life-cycle cost analysis is also presented. As a case study, the longitudinal frame of an existing building was modeled considering the effect of flexural-shear-axial load interaction in order to capture column shear and axial failures. 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subjects	Aseismic buildings Axial loads Collapse Cost analysis Cost estimates Earthquakes Frame structures Life cycle analysis Life cycle assessment Life cycle costs Longitude Optimization Risk analysis Seismic analysis Seismic engineering Seismic hazard Structural engineering Technical Papers
title	Performance-Based Assessment Methodology for Retrofit of Buildings
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