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Lattice Discrete Particle Model for the Simulation of Irregular Stone Masonry

Michele Angiolilli, Madura Pathirage, Amedeo Gregori, Gianluca Cusatis

2021Journal of Structural Engineering43 citationsDOI

Abstract

This paper focuses on the simulation of irregular stone masonry by the lattice discrete particle model (LDPM), which simulates the fracture and failure behavior of quasi-brittle heterogeneous materials by modeling the interaction among coarse material heterogeneities. LDPM is formulated at the length scale of the masonry stones whose interaction is described through constitutive equations featuring softening in tension and strain hardening in compression. The numerical results relevant to diagonal compression tests show that the intrinsic stochastic character of LDPM can quantify the variation of the mechanical properties of irregular masonry resulting from random stone size and stone-size distribution. Furthermore, the paper presents an analysis of the size effect on irregular stone masonry structures. This was obtained by simulating the shear behavior of geometrically similar samples of different sizes. The simulations demonstrate that increasing structural size leads to a significant reduction of both structural strength and structural ductility. The magnitude of the predicted size effect suggests that, contrary to typical experimental results on reduced size samples, real irregular masonry structures must be considered as perfectly brittle.

Topics & Concepts

MasonryBrittlenessMaterials scienceStructural engineeringDiagonalGeotechnical engineeringHardening (computing)MechanicsComposite materialGeologyGeometryMathematicsEngineeringPhysicsLayer (electronics)Rock Mechanics and ModelingMasonry and Concrete Structural AnalysisGrouting, Rheology, and Soil Mechanics
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