A MICROMECHANICAL INELASTIC MODEL FOR HISTORICAL MASONRY |
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Authors: | C CALDERINI? S LAGOMARSINO |
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Institution: | Department of Structural and Geotechnical Engineering , University of Genova , Via MontaLlegro 1, Genova, Italy |
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Abstract: | A micromechanical damage model for the Snite element modelling of historical masonry structures is presented in this article. Masonry is considered as a composite medium made up of a periodic assembly of blocks connected by orthogonal bed and head mortar joints. The constitutive equations, in plane stress, are based on the homogenisation theory and they consider the non linear stress-strain relationship in terms of mean stress and mean strain. Different in-plane damage mechanisms, involving both mortar and blocks, are considered and the damage process is governed by evolution laws based on an energetic approach derived from Fracture Mechanics and on a non-associated Coulomb friction law. The failure domain of the model is analysed both in the equivalent stress and in the principal stress space considering different orientations of the bed joints relative to the loading direction. A comparison with experimental results is provided. A numerical simulation of masonry walls subjected to horizontal forces proportional to their own weight is shown in order to discuss the model's capability of describing the influence of the masonry microstructure on its mechanical behaviour. |
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Keywords: | Anisotropy constitutive model finite element analysis masonry micromechanics |
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