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MULTISCALE ANALYSIS OF IN-PLANE MASONRY WALLS ACCOUNTING FOR DEGRADATION AND FRICTIONAL EFFECTS

Authors :
Elio Sacco
Daniela Addessi
S. Marfia
Cristina Gatta
Addessi, D.
Gatta, C.
Marfia, S.
Sacco, E.
Source :
International Journal for Multiscale Computational Engineering. 18:159-180
Publication Year :
2020
Publisher :
Begell House, 2020.

Abstract

A multiscale model for the analysis of the in-plane response of periodic masonry walls is presented. The overall constitutive behavior of the composite material is derived through a homogenization procedure based on the Transformation Field Analysis properly extended to the case of interfaces. At micro level, masonry is modeled as the assembly of expanded units and interfaces representing both mortar and unit-mortar interaction. A nonlinear constitutive law accounting for damage and friction phenomena is considered for joints, whereas a linear elastic constitutive relationship is assumed for the blocks. The proposed multiscale procedure is implemented into a Finite Element code, where the mesh-dependency occurring in presence of strain softening response is overcome by adopting a nonlocal integral formulation at macro level. Validation examples are carried out: first, the response of a representative masonry Unit Cell is analyzed comparing results obtained with the presented homogenization procedure with those recovered by detailed nonlinear finite element analyses. Then, the structural behavior of masonry panels subjected to compression-shear loads is studied. The results obtained with the multiscale model, in terms of global force-displacement response curves and damage distributions, are compared with both micromechanical and experimental outcomes.

Details

ISSN :
15431649
Volume :
18
Database :
OpenAIRE
Journal :
International Journal for Multiscale Computational Engineering
Accession number :
edsair.doi.dedup.....500613aef481c515c1532648aec7fb12
Full Text :
https://doi.org/10.1615/intjmultcompeng.2020031235