Stochastic Modeling of Chaotic Masonry via Mesostructural Characterization

Lombardo, Mariateresa; Zeman, Jan; Šejnoha, Michal; Falsone, G.

doi:10.1615/intjmultcompeng.v7.i2.70

Cited by 25 publications

(1 citation statement)

References 42 publications

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“…In this case, the macro-scale response can be based on refined models with an explicit meso-scale description of the geometric arrangement of the blocks, or with a detailed behaviour of the mortar joints and interfaces at the micro-scale [1,2]. Several homogenization techniques, including multiscale, have been elaborated to accomplish the scale transition and most of these studies aims to implement numerical precedures adopting finite element approaches based on the Cauchy solid continuum model [3][4][5][6][7][8][9][10]. In theory, within the framework of continuum solid mechanics, the masonry modelling takes benefit of an enriched kinematics, e.g.…”

Section: Introductionmentioning

confidence: 99%

Macroscale modelling of the orthotropic shear damage in the dynamics of masonry towers by RBSM

Casolo

2021

Engineering Failure Analysis

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Section: Introductionmentioning

confidence: 99%

Macroscale modelling of the orthotropic shear damage in the dynamics of masonry towers by RBSM

Casolo

2021

Engineering Failure Analysis

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Hierarchical stochastic homogenization analysis of a particle reinforced composite material considering non-uniform distribution of microscopic random quantities

Sakata

Ashida

2011

Comput Mech

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This paper discusses a stochastic homogenization problem for evaluation of stochastic characteristics of a homogenized elastic property of a particle reinforced composite material especially in case of considering a nonuniform distribution of a material property or geometry of a component material and its random variation. In practice, some microscopic random variations in composites may not be uniform. In this case, a non-uniformly distributed random variation of a microscopic material or geometrical property should be taken into account. For this problem, this paper proposes a hierarchical stochastic homogenization method. This method assumes that a two-phase composite material can be separated into three-scales, and propagation of the randomness through the different scales can be evaluated with the perturbation-based technique. As an example, stochastic characteristics of homogenized elastic properties of a glassparticle reinforced plastic are estimated using the proposed approach. With the numerical results, importance of the problem and validity of the proposed method are discussed.

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Failure surface of quasi-periodic masonry by means of Statistically Equivalent Periodic Unit Cell approach

2017

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In this paper a homogenization procedure for the estimation of the failure surface of a quasi-periodic masonry, based on a mean stresses approach through the analysis of the Statistically Equivalent Periodic Unit Cell (SEPUC), is shown. The mean stresses approach consists in the identification of critical states for the homogenized continuum by means of an overall failure criterion, function of the mean stress state of each constituent. These macroscopic tensors are evaluated in the elastic field. The SEPUC definition refers to a statistical criterion applied to a population of Periodic Unit Cells (PUCs) generated taking into account the geometrical features of the quasi-periodic texture; moreover it is validated on the basis of the homogenized elastic properties in terms of components and Frobenius norm of the elastic matrix. By a multi-objective optimization approach, the obtained results highlight that the proposed SEPUC can be used to estimate the failure surface.

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Stochastic Modeling of Chaotic Masonry via Mesostructural Characterization

Cited by 25 publications

References 42 publications

Macroscale modelling of the orthotropic shear damage in the dynamics of masonry towers by RBSM

Macroscale modelling of the orthotropic shear damage in the dynamics of masonry towers by RBSM

Hierarchical stochastic homogenization analysis of a particle reinforced composite material considering non-uniform distribution of microscopic random quantities

Failure surface of quasi-periodic masonry by means of Statistically Equivalent Periodic Unit Cell approach

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