Scale Effects in Orthotropic Composite Assemblies as Micropolar Continua: A Comparison between Weak- and Strong-Form Finite Element Solutions.
TLDR
The aim of the present work was to investigate the mechanical behavior of orthotropic composites, such as masonry assemblies, subjected to localized loads described as micropolar materials, as well as the significant role played by the relative rotation.Abstract:
The aim of the present work was to investigate the mechanical behavior of orthotropic composites, such as masonry assemblies, subjected to localized loads described as micropolar materials. Micropolar models are known to be effective in modeling the actual behavior of microstructured solids in the presence of localized loads or geometrical discontinuities. This is due to the introduction of an additional degree of freedom (the micro-rotation) in the kinematic model, if compared to the classical continuum and the related strain and stress measures. In particular, it was shown in the literature that brick/block masonry can be satisfactorily modeled as a micropolar continuum, and here it is assumed as a reference orthotropic composite material. The in-plane elastic response of panels made of orthotropic arrangements of bricks of different sizes is analyzed herein. Numerical simulations are provided by comparing weak and strong finite element formulations. The scale effect is investigated, as well as the significant role played by the relative rotation, which is a peculiar strain measure of micropolar continua related to the non-symmetry of strain and work-conjugated stress. In particular, the anisotropic effects accounting for the micropolar moduli, related to the variation of microstructure internal sizes, are highlighted.read more
Citations
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Failure Analysis of Ultra High-Performance Fiber-Reinforced Concrete Structures Enhanced with Nanomaterials by Using a Diffuse Cohesive Interface Approach
TL;DR: A diffuse cohesive interface approach is proposed to predict the structural response of UHPFRC structures enhanced with embedded nanomaterials, and the numerical outcomes have shown the reliability of the proposed model, also highlighting the role of the nano-reinforcement in the crack width control.
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Mechanical Behavior of Anisotropic Composite Materials as Micropolar Continua
TL;DR: In this paper, the macroscopic behavior of materials with anisotropic microstructure described as micropolar continua is studied, and numerical parametric analyses are performed for various classes of material symmetries using a finite element approach with quadratic elements.
Journal ArticleDOI
Discrete and Continuous Approaches for the Failure Analysis of Masonry Structures Subjected to Settlements
Marco Pepe,Marialuigia Sangirardi,Emanuele Reccia,Marco Pingaro,Patrizia Trovalusci,G. de Felice,G. de Felice +6 more
TL;DR: This work focuses on the analysis of settlement-induced failure patterns characterizing the in-plane response of two-dimensional dry-joints masonry panels, which differ in terms of texture, geometry, and settlement configuration.
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Scale dependent continuum approaches for discontinuous assemblies: ‘Explicit’ and ‘implicit’ non-local models
Meral Tuna,Patrizia Trovalusci +1 more
TL;DR: In this paper, the authors investigate the mechanical behavior of orthotropic masonry subjected to localised loads in the context of both implicit and explicit non-local continuum models, and compare the solutions of Cosserat (micropolar) and integral form of Eringen models, obtained by employing finite element method.
Journal ArticleDOI
Material Symmetries in Homogenized Hexagonal-Shaped Composites as Cosserat Continua
TL;DR: The results obtained show the difference of the micropolar response for the considered material symmetries, which depends on the non-symmetries of the strain and stress tensor as well as on the additional kinematical and work-conjugated statical descriptors.
References
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TL;DR: HAL as discussed by the authors is a multi-disciplinary open access archive for the deposit and dissemination of scientific research documents, whether they are published or not, which may come from teaching and research institutions in France or abroad, or from public or private research centers.
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