Evaluation of a proposed model for concrete at mesoscopic scale

BORGES,D. C.; QUARESMA,W. M. G.; FERNANDES,G. R.; PITUBA,J. J. C.

Evaluation of a proposed model for concrete at mesoscopic scale

Detalhes bibliográficos
Autor(a) principal:	BORGES,D. C.
Data de Publicação:	2017
Outros Autores:	QUARESMA,W. M. G., FERNANDES,G. R., PITUBA,J. J. C.
Tipo de documento:	Artigo
Idioma:	eng
Título da fonte:	Revista IBRACON de Estruturas e Materiais
Texto Completo:	http://old.scielo.br/scielo.php?script=sci_arttext&pid=S1983-41952017000501087
Resumo:	Abstract This work deals with numerical modeling of mechanical behavior in quasi-brittle materials, such as concrete. For this propose, a two-dimensional meso-scale model based on RVE existence is presented. The material is considered as a three-phase material consisting of interface zone (ITZ), matrix and inclusions - each constituent modeled by an independent constitutive model. The Representative Volume Element (RVE) consists of inclusions idealized as circular shapes symmetrically and non-symmetrically placed into the specimen. The interface zone is modeled by means of cohesive contact finite elements. The inclusion is modeled as linear elastic and matrix region is considered as elastoplastic material. Our main goal here is to show a computational homogenization-based approach as an alternative to complex macroscopic constitutive models for the mechanical behavior of the brittle materials using a finite element procedure within a purely kinematical multi-scale framework. Besides, the fundamental importance of the representing dissipative phenomena in the interface zone to model the complex microstructural responses of materials like concrete is focused in this work. A set of numerical examples, involving the microcracking processes, is provided in order to illustrate the performance of the proposed modeling.

Metadados do item

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spelling	Evaluation of a proposed model for concrete at mesoscopic scalehomogenizationquasi-brittle materialscohesive contact finite elementconcreteplasticityAbstract This work deals with numerical modeling of mechanical behavior in quasi-brittle materials, such as concrete. For this propose, a two-dimensional meso-scale model based on RVE existence is presented. The material is considered as a three-phase material consisting of interface zone (ITZ), matrix and inclusions - each constituent modeled by an independent constitutive model. The Representative Volume Element (RVE) consists of inclusions idealized as circular shapes symmetrically and non-symmetrically placed into the specimen. The interface zone is modeled by means of cohesive contact finite elements. The inclusion is modeled as linear elastic and matrix region is considered as elastoplastic material. Our main goal here is to show a computational homogenization-based approach as an alternative to complex macroscopic constitutive models for the mechanical behavior of the brittle materials using a finite element procedure within a purely kinematical multi-scale framework. Besides, the fundamental importance of the representing dissipative phenomena in the interface zone to model the complex microstructural responses of materials like concrete is focused in this work. A set of numerical examples, involving the microcracking processes, is provided in order to illustrate the performance of the proposed modeling.IBRACON - Instituto Brasileiro do Concreto2017-09-01info:eu-repo/semantics/articleinfo:eu-repo/semantics/publishedVersiontext/htmlhttp://old.scielo.br/scielo.php?script=sci_arttext&pid=S1983-41952017000501087Revista IBRACON de Estruturas e Materiais v.10 n.5 2017reponame:Revista IBRACON de Estruturas e Materiaisinstname:Instituto Brasileiro do Concreto (IBRACON)instacron:IBRACON10.1590/s1983-41952017000500009info:eu-repo/semantics/openAccessBORGES,D. C.QUARESMA,W. M. G.FERNANDES,G. R.PITUBA,J. J. C.eng2017-11-07T00:00:00Zoai:scielo:S1983-41952017000501087Revistahttp://www.revistas.ibracon.org.br/index.php/riemhttps://old.scielo.br/oai/scielo-oai.phpeditores.riem@gmail.com\|\|arlene@ibracon.org.br1983-41951983-4195opendoar:2017-11-07T00:00Revista IBRACON de Estruturas e Materiais - Instituto Brasileiro do Concreto (IBRACON)false
dc.title.none.fl_str_mv	Evaluation of a proposed model for concrete at mesoscopic scale
title	Evaluation of a proposed model for concrete at mesoscopic scale
spellingShingle	Evaluation of a proposed model for concrete at mesoscopic scale BORGES,D. C. homogenization quasi-brittle materials cohesive contact finite element concrete plasticity
title_short	Evaluation of a proposed model for concrete at mesoscopic scale
title_full	Evaluation of a proposed model for concrete at mesoscopic scale
title_fullStr	Evaluation of a proposed model for concrete at mesoscopic scale
title_full_unstemmed	Evaluation of a proposed model for concrete at mesoscopic scale
title_sort	Evaluation of a proposed model for concrete at mesoscopic scale
author	BORGES,D. C.
author_facet	BORGES,D. C. QUARESMA,W. M. G. FERNANDES,G. R. PITUBA,J. J. C.
author_role	author
author2	QUARESMA,W. M. G. FERNANDES,G. R. PITUBA,J. J. C.
author2_role	author author author
dc.contributor.author.fl_str_mv	BORGES,D. C. QUARESMA,W. M. G. FERNANDES,G. R. PITUBA,J. J. C.
dc.subject.por.fl_str_mv	homogenization quasi-brittle materials cohesive contact finite element concrete plasticity
topic	homogenization quasi-brittle materials cohesive contact finite element concrete plasticity
description	Abstract This work deals with numerical modeling of mechanical behavior in quasi-brittle materials, such as concrete. For this propose, a two-dimensional meso-scale model based on RVE existence is presented. The material is considered as a three-phase material consisting of interface zone (ITZ), matrix and inclusions - each constituent modeled by an independent constitutive model. The Representative Volume Element (RVE) consists of inclusions idealized as circular shapes symmetrically and non-symmetrically placed into the specimen. The interface zone is modeled by means of cohesive contact finite elements. The inclusion is modeled as linear elastic and matrix region is considered as elastoplastic material. Our main goal here is to show a computational homogenization-based approach as an alternative to complex macroscopic constitutive models for the mechanical behavior of the brittle materials using a finite element procedure within a purely kinematical multi-scale framework. Besides, the fundamental importance of the representing dissipative phenomena in the interface zone to model the complex microstructural responses of materials like concrete is focused in this work. A set of numerical examples, involving the microcracking processes, is provided in order to illustrate the performance of the proposed modeling.
publishDate	2017
dc.date.none.fl_str_mv	2017-09-01
dc.type.driver.fl_str_mv	info:eu-repo/semantics/article
dc.type.status.fl_str_mv	info:eu-repo/semantics/publishedVersion
format	article
status_str	publishedVersion
dc.identifier.uri.fl_str_mv	http://old.scielo.br/scielo.php?script=sci_arttext&pid=S1983-41952017000501087
url	http://old.scielo.br/scielo.php?script=sci_arttext&pid=S1983-41952017000501087
dc.language.iso.fl_str_mv	eng
language	eng
dc.relation.none.fl_str_mv	10.1590/s1983-41952017000500009
dc.rights.driver.fl_str_mv	info:eu-repo/semantics/openAccess
eu_rights_str_mv	openAccess
dc.format.none.fl_str_mv	text/html
dc.publisher.none.fl_str_mv	IBRACON - Instituto Brasileiro do Concreto
publisher.none.fl_str_mv	IBRACON - Instituto Brasileiro do Concreto
dc.source.none.fl_str_mv	Revista IBRACON de Estruturas e Materiais v.10 n.5 2017 reponame:Revista IBRACON de Estruturas e Materiais instname:Instituto Brasileiro do Concreto (IBRACON) instacron:IBRACON
instname_str	Instituto Brasileiro do Concreto (IBRACON)
instacron_str	IBRACON
institution	IBRACON
reponame_str	Revista IBRACON de Estruturas e Materiais
collection	Revista IBRACON de Estruturas e Materiais
repository.name.fl_str_mv	Revista IBRACON de Estruturas e Materiais - Instituto Brasileiro do Concreto (IBRACON)
repository.mail.fl_str_mv	editores.riem@gmail.com\|\|arlene@ibracon.org.br
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Evaluation of a proposed model for concrete at mesoscopic scale

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