Nonlinear static and dynamic analyses of reinforced concrete buildings - comparison of different modelling approaches

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Publication Details

Output type: Journal article

Author list: Carvalho G, Bento R, Bhatt C

Publisher: TECHNO-PRESS

Publication year: 2013

Volume number: 4

Issue number: 5

Start page: 451

End page: 470

Number of pages: 20

ISSN: 2092-7614

Languages: English-Great Britain (EN-GB)

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Open access status: closed

Abstract

It generally accepted that most building structures shall exhibit a nonlinear response when subjected to medium-high intensity earthquakes. It is currently known, however, that this phenomenon is not properly modelled in the majority of cases, especially at the design stage, where only simple linear methods have effectively been used. Recently, as a result of the exponential progress of computational tools, nonlinear modelling and analysis have gradually been brought to a more promising level. A wide range of modelling alternatives developed over the years is hence at the designer's disposal for the seismic design and assessment of engineering structures. The objective of the study presented herein is to test some of these models in an existing structure, and observe their performance in nonlinear static and dynamic analyses. This evaluation is done by the use of two of a known range of advanced computer programs: SAP2000 and SeismoStruct. The different models will focus on the element flexural mechanism with both lumped and distributed plasticity element models. In order to appraise the reliability and feasibility of each alternative, the programs capabilities and the amount of labour and time required for modelling and performing the analyses are also discussed. The results obtained show the difficulties that may be met, not only in performing nonlinear analyses, but also on their dependency on both the chosen nonlinear structural models and the adopted computer programs. It is then suggested that these procedures should only be used by experienced designers, provided that they are aware of these difficulties and with a critical stance towards the result of the analyses.

Keywords

distributed plasticity models, lumped plasticity models, material nonlinearity, nonlinear seismic analysis, reinforced concrete sections

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