Marcos Bressan Guimarães scite author profile

Marcos Bressan Guimarães

4Publications

0Citation Statements Received

104Citation Statements Given

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Federal University of Rio Grande do Sul

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Resultados das Pesquisas e Inovações na Área das Engenharias

Corrêa¹,

Miranda²,

Sausen³

et al. 2020

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Direitos para esta edição cedidos à Atena Editora pelos autores. Todo o conteúdo deste livro está licenciado sob uma Licença de Atribuição Creative Commons. Atribuição-Não-Comercial-NãoDerivativos 4.0 Internacional (CC BY-NC-ND 4.0).O conteúdo dos artigos e seus dados em sua forma, correção e confiabilidade são de responsabilidade exclusiva dos autores, inclusive não representam necessariamente a posição oficial da Atena Editora. Permitido o download da obra e o compartilhamento desde que sejam atribuídos créditos aos autores, mas sem a possibilidade de alterá-la de nenhuma forma ou utilizá-la para fins comerciais.A Atena Editora não se responsabiliza por eventuais mudanças ocorridas nos endereços convencionais ou eletrônicos citados nesta obra.Todos os manuscritos foram previamente submetidos à avaliação cega pelos pares, membros do Conselho Editorial desta Editora, tendo sido aprovados para a publicação.

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Upscaling modeling of effective elastic properties and anisotropic damage propagation in fractured materials regarded as homogenized media

Guimarães

Aguiar

Maghous

2023

Preprint

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A model combining the micromechanical reasoning with macroscopic thermodynamic concepts is formulated in this paper for damage evolution in microfractured materials. Fractures correspond to a region of small thickness, along which mechanical and physical properties of the material are degraded. Unlike cracks, fractures are discontinuities able to transfer stress and, therefore, can be regarded from a mechanical viewpoint as interfaces endowed with a specific behavior under normal and shear loading. The present paper consists of employing a micromechanical approach to formulate the homogenized elastic behavior of fractured media. In the context of Eshelby’s equivalent inclusion theory, the approach employs the Mori-Tanaka scheme to estimate the homogenized elastic moduli of materials with multiple fracture families. According to classical references, fractures are geometrically modeled as oblate spheroids endowed with appropriate elastic properties. In order to evaluate the damage evolution in materials with several families of microfractures, a damage model is formulated by combining the above results with a classical thermodynamics approach. Particular emphasis is dedicated to the representation of anisotropic damage, induced by a load applied in a specific direction to a material with an isotropic fracture distribution. The ability of the damage model to describe the response of a material under any loading is demonstrated through a comparison with available experimental data for a ceramic matrix composite silicon carbide reinforced with silicon carbide fibers (SiC-SiC).

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Análise Do Sistema Construtivo E Seus Materiais Constituintes Com Enfâse No Aço Como Solução Para Reforços Estruturais

Guimarães¹,

Maicá²,

Lopes³

et al. 2020

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Desenvolvimento, tecnologias e educação: diálogos multidisciplinares volume III

Oliveira¹,

Barcellos²,

Oliveira³

et al. 2019

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