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Simulation of Shake Table Tests on Out-of-Plane Masonry Buildings. Part (IV): Macro and Micro FEM Based Approaches
Authors:César Chácara  Nuno Mendes  Paulo B. Lourenço
Affiliation:1. ISISE, Department of Civil Engineering, University of Minho, Guimar?es, Portugalc.chacara@pucp.pe;3. ISISE, Department of Civil Engineering, University of Minho, Guimar?es, Portugal
Abstract:ABSTRACT

This article presents a study on the out-of-plane response of two masonry structures without box behavior tested in a shaking table. Two numerical approaches were defined for the evaluation, namely macro-modeling and simplified micro-modeling. As a first step of this study, static nonlinear analyses were performed for the macro models in order to assess the out-of-plane response of masonry structures due to incremental loading. For these analyses, mesh size and material model dependency was discussed. Subsequently, dynamic nonlinear analyses with time integration were carried out, aiming at evaluating the collapse mechanism and at comparing it to the experimental response. Finally, nonlinear static and dynamic analyses were also performed for the simplified micro models. It was observed that these numerical techniques correctly simulate the in-plane response. The collapse mechanism of the stone masonry model is in good agreement with the experimental response. However, there are some inconsistencies regarding the out-of-plane behavior of the brick masonry model, which required further validation.
Keywords:collapse mechanism  masonry structures  nonlinear analyses  numerical modeling  out-of-plane behavior
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