Avaliação das propriedades de transporte de massa contendo adições minerais

Detalhes bibliográficos
Autor(a) principal: MENDES, Marcus Vinícius Araújo da Silva
Data de Publicação: 2009
Tipo de documento: Dissertação
Idioma: por
Título da fonte: Repositório Institucional da UFG
dARK ID: ark:/38995/00130000009c4
Texto Completo: http://repositorio.bc.ufg.br/tede/handle/tde/1353
Resumo: The durability of reinforced concrete structures is damaged by the degrading action of the penetration of substances in the form of gases, vapors and liquids through the pores and cracks. It is known that water both in its pure form or containing dissolved ions such as chloride, sulphate, carbon dioxide or oxygen ions, can compromise the durability of concrete structures. In reinforced concrete structures at the marine environment, for example, the towers of wind power plants, this degradation can be more intense and accelerated. Thus, in the present study were analyzed concretes with different mineral additions (silica fume, blast furnace slag) and water / binder ratios (0.35, 0.45 and 0.55), with the objective to verify if the inside and cover thickness of concrete have some effect on the mechanisms of transport and also the effect of carbonation (only for concrete with w/b equal to 0.55) in the surface layer of concrete is important enough to make dificult the entry of aggressive agents in concrete. For this, the following tests to evaluate the mass transport in concrete were performed: capillary water absorption (NBR 9779:1995), water penetration under pressure (NBR 10787:1994), air permeability (method Figg), penetrability of chloride ion (ASTM C 1202: 2009), non-steadystate migration test (NT BUILD 492:1999). As a result, it was found that the mineral addition used generally provided an improvement in front of the concrete mechanisms of mass transport. In one of the properties, namely the diffusion coefficient (non-steady-state migration) of concrete with the use of silica fume and blast furnace slag, this has been reduced dramatically, around 11 times for the concrete with w/b equal to 0.55, when it is compared with concrete without mineral addition. It was observed that the inner region of concrete behaved better, in an unexpected way, than concrete cover region for some properties (capillary absorption, water penetration under pressure, penetration of chloride ions). From this conclusion, it can be said that the inner part of concrete is composed of transition zones (aggregated interface / mortar) exposed to facilitate the entry of fluids, gases and ions. About the effect of carbonation, this affected the capillary absorption and air permeability. The results led to explain that the clogging of the pores resulting from the product of carbonation (CaCO3), promoted the refinement of the pores, thus increasing capillary force and, consequently, increasing the capillary absorption. However, for air permeability this effect has damaged the passage of air through the surface layer. Finally, it is important noting that significant correlations were found among tests that evaluated the mechanisms of mass transport, namely, penetration of chloride ions and capillary absorption, diffusion coefficient (non-steady-state migration) and capillary absorption, permeability air and water penetration under pressure, penetration of chloride ions and the diffusion coefficient.
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spelling CASCUDO, Oswaldohttp://lattes.cnpq.br/3336749062812376CARASEK, Helenahttp://lattes.cnpq.br/3023241186996790http://lattes.cnpq.br/5476828844990349MENDES, Marcus Vinícius Araújo da Silva2014-07-29T15:18:25Z2010-05-312009-10-06MENDES, Marcus Vinícius Araújo da Silva. Evaluation of the mass transport containing mineral admixtures. 2009. 201 f. Dissertação (Mestrado em Engenharias) - Universidade Federal de Goiás, Goiânia, 2009.http://repositorio.bc.ufg.br/tede/handle/tde/1353ark:/38995/00130000009c4The durability of reinforced concrete structures is damaged by the degrading action of the penetration of substances in the form of gases, vapors and liquids through the pores and cracks. It is known that water both in its pure form or containing dissolved ions such as chloride, sulphate, carbon dioxide or oxygen ions, can compromise the durability of concrete structures. In reinforced concrete structures at the marine environment, for example, the towers of wind power plants, this degradation can be more intense and accelerated. Thus, in the present study were analyzed concretes with different mineral additions (silica fume, blast furnace slag) and water / binder ratios (0.35, 0.45 and 0.55), with the objective to verify if the inside and cover thickness of concrete have some effect on the mechanisms of transport and also the effect of carbonation (only for concrete with w/b equal to 0.55) in the surface layer of concrete is important enough to make dificult the entry of aggressive agents in concrete. For this, the following tests to evaluate the mass transport in concrete were performed: capillary water absorption (NBR 9779:1995), water penetration under pressure (NBR 10787:1994), air permeability (method Figg), penetrability of chloride ion (ASTM C 1202: 2009), non-steadystate migration test (NT BUILD 492:1999). As a result, it was found that the mineral addition used generally provided an improvement in front of the concrete mechanisms of mass transport. In one of the properties, namely the diffusion coefficient (non-steady-state migration) of concrete with the use of silica fume and blast furnace slag, this has been reduced dramatically, around 11 times for the concrete with w/b equal to 0.55, when it is compared with concrete without mineral addition. It was observed that the inner region of concrete behaved better, in an unexpected way, than concrete cover region for some properties (capillary absorption, water penetration under pressure, penetration of chloride ions). From this conclusion, it can be said that the inner part of concrete is composed of transition zones (aggregated interface / mortar) exposed to facilitate the entry of fluids, gases and ions. About the effect of carbonation, this affected the capillary absorption and air permeability. The results led to explain that the clogging of the pores resulting from the product of carbonation (CaCO3), promoted the refinement of the pores, thus increasing capillary force and, consequently, increasing the capillary absorption. However, for air permeability this effect has damaged the passage of air through the surface layer. Finally, it is important noting that significant correlations were found among tests that evaluated the mechanisms of mass transport, namely, penetration of chloride ions and capillary absorption, diffusion coefficient (non-steady-state migration) and capillary absorption, permeability air and water penetration under pressure, penetration of chloride ions and the diffusion coefficient.A durabilidade das estruturas de concreto armado é prejudicada pela ação deteriorante da penetração de substâncias na forma de gases, vapores e líquidos através de poros e fissuras. Sabe-se que a água, tanto no seu estado puro ou com íons dissolvidos, como os cloretos, sulfato, dióxido de carbono ou oxigênio, pode comprometer a durabilidade das estruturas de concreto. Em estruturas de concreto armado localizadas em ambiente marítimo como, por exemplo, as torres de energia eólica, essa deterioração pode ser mais intensa e acelerada. Diante disso, no presente trabalho foram analisados concretos com diferentes adições minerais (sílica ativa e escória de alto-forno) e relações água/aglomerante (0,35; 0,45 e 0,55), tendo como objetivo principal verificar se a parte interna e o cobrimento do concreto exercem algum efeito nos mecanismos de transporte e, se o efeito da carbonatação (somente para concretos de relação a/g igual a 0,55) na camada superficial do concreto é relevante a ponto de dificultar a entrada de agentes agressivos no concreto. Para isso, foram realizados os seguintes ensaios para avaliar o transporte de massa no concreto: absorção de água por capilaridade (NBR 9779:1995), penetração de água sob pressão (NBR 10787:1994), permeabilidade ao ar (método de Figg), penetrabilidade de cloretos (ASTM C 1202: 2009), ensaio de migração em regime não estacionário (NT BUILD 492:1999). Como resultado constatou-se que as adições minerais empregadas propiciaram de maneira geral uma melhoria dos concretos frente aos mecanismos de transporte de massa. Em uma das propriedades avaliadas, a saber, o coeficiente de difusão (migração regime não estacionário) dos concretos com o emprego de sílica ativa e escória de alto-forno, esse foi reduzido drasticamente, em torno de 11 vezes para os concretos com relação a/ag igual a 0,55, quando comparado com os concretos sem adição mineral. Quanto à região do concreto, notou-se para algumas propriedades (absorção capilar, penetração de água sob pressão, penetrabilidade de cloretos) que a região interna comportou-se melhor, de maneira inesperada, que a região do cobrimento. Diante dessa conclusão, criou-se uma hipótese para tal comportamento que consistiu em afirmar que a parte interna é composta por zonas de transição (interface agregado/pasta) expostas que facilitam a entrada de fluidos, gases e íons. Já com relação ao efeito da carbonatação, esta afetou a absorção capilar e a permeabilidade ao ar. Os resultados levaram a explicar que a colmatação dos poros, advindos do produto (CaCO3) da carbonatação promoveu o refinamento dos poros, aumentando, assim, a força capilar e, conseqüentemente, o aumento da absorção capilar. No entanto, para permeabilidade ao ar esse efeito dificultou a passagem de ar através da camada superficial. Por último, cabe destacar, que correlações importantes foram obtidas entre os ensaios que avaliaram os mecanismos de transporte de massa, a saber, penetrabilidade de cloretos e absorção capilar, coeficiente de difusão (migração regime não estacionário) e absorção capilar, permeabilidade ao ar e penetração de água sob pressão, penetrabilidade de cloreto e coeficiente de difusão.Made available in DSpace on 2014-07-29T15:18:25Z (GMT). No. of bitstreams: 1 dissertacao marcus vinicius mendes.pdf: 2369089 bytes, checksum: 841841ae88caf7c6c9adb67b65e533c5 (MD5) Previous issue date: 2009-10-06application/pdfhttp://repositorio.bc.ufg.br/TEDE/retrieve/4176/dissertacao%20marcus%20vinicius%20mendes.pdf.jpgporUniversidade Federal de GoiásMestrado em Geotecnia e Construção CivilUFGBREngenhariasConcretoAdições mineraisSílica ativaEscória de alto fornoAbsorção capilarPermeabilidadeCoeficiente de difusãoMigração regime não estacionárioPenetrabilidade de cloretosMecanismo de transporteConcreteMineral additionSilica fumeBlast furnace slag. Capillary absorptionPermeabilityDiffusion coefficientNon-steady-state migrationPenetration of chloride ionsTransport mechanismCNPQ::ENGENHARIAS::ENGENHARIA CIVIL::CONSTRUCAO CIVILAvaliação das propriedades de transporte de massa contendo adições mineraisEvaluation of the mass transport containing mineral admixturesinfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisinfo:eu-repo/semantics/openAccessreponame:Repositório Institucional da UFGinstname:Universidade Federal de Goiás (UFG)instacron:UFGORIGINALdissertacao marcus vinicius mendes.pdfapplication/pdf2369089http://repositorio.bc.ufg.br/tede/bitstreams/c28992fe-8b72-402a-910e-b5aa03530f88/download841841ae88caf7c6c9adb67b65e533c5MD51THUMBNAILdissertacao marcus vinicius mendes.pdf.jpgdissertacao marcus vinicius mendes.pdf.jpgGenerated Thumbnailimage/jpeg4309http://repositorio.bc.ufg.br/tede/bitstreams/c457479d-ccfe-4704-9758-d5673ef00b4f/downloadd28d52e48a32078eb5f76e5805d2b5aeMD52tde/13532014-07-30 03:12:03.202open.accessoai:repositorio.bc.ufg.br:tde/1353http://repositorio.bc.ufg.br/tedeRepositório InstitucionalPUBhttp://repositorio.bc.ufg.br/oai/requesttasesdissertacoes.bc@ufg.bropendoar:2014-07-30T06:12:03Repositório Institucional da UFG - Universidade Federal de Goiás (UFG)false
dc.title.por.fl_str_mv Avaliação das propriedades de transporte de massa contendo adições minerais
dc.title.alternative.eng.fl_str_mv Evaluation of the mass transport containing mineral admixtures
title Avaliação das propriedades de transporte de massa contendo adições minerais
spellingShingle Avaliação das propriedades de transporte de massa contendo adições minerais
MENDES, Marcus Vinícius Araújo da Silva
Concreto
Adições minerais
Sílica ativa
Escória de alto forno
Absorção capilar
Permeabilidade
Coeficiente de difusão
Migração regime não estacionário
Penetrabilidade de cloretos
Mecanismo de transporte
Concrete
Mineral addition
Silica fume
Blast furnace slag. Capillary absorption
Permeability
Diffusion coefficient
Non-steady-state migration
Penetration of chloride ions
Transport mechanism
CNPQ::ENGENHARIAS::ENGENHARIA CIVIL::CONSTRUCAO CIVIL
title_short Avaliação das propriedades de transporte de massa contendo adições minerais
title_full Avaliação das propriedades de transporte de massa contendo adições minerais
title_fullStr Avaliação das propriedades de transporte de massa contendo adições minerais
title_full_unstemmed Avaliação das propriedades de transporte de massa contendo adições minerais
title_sort Avaliação das propriedades de transporte de massa contendo adições minerais
author MENDES, Marcus Vinícius Araújo da Silva
author_facet MENDES, Marcus Vinícius Araújo da Silva
author_role author
dc.contributor.advisor1.fl_str_mv CASCUDO, Oswaldo
dc.contributor.advisor1Lattes.fl_str_mv http://lattes.cnpq.br/3336749062812376
dc.contributor.advisor-co1.fl_str_mv CARASEK, Helena
dc.contributor.advisor-co1Lattes.fl_str_mv http://lattes.cnpq.br/3023241186996790
dc.contributor.authorLattes.fl_str_mv http://lattes.cnpq.br/5476828844990349
dc.contributor.author.fl_str_mv MENDES, Marcus Vinícius Araújo da Silva
contributor_str_mv CASCUDO, Oswaldo
CARASEK, Helena
dc.subject.por.fl_str_mv Concreto
Adições minerais
Sílica ativa
Escória de alto forno
Absorção capilar
Permeabilidade
Coeficiente de difusão
Migração regime não estacionário
Penetrabilidade de cloretos
Mecanismo de transporte
topic Concreto
Adições minerais
Sílica ativa
Escória de alto forno
Absorção capilar
Permeabilidade
Coeficiente de difusão
Migração regime não estacionário
Penetrabilidade de cloretos
Mecanismo de transporte
Concrete
Mineral addition
Silica fume
Blast furnace slag. Capillary absorption
Permeability
Diffusion coefficient
Non-steady-state migration
Penetration of chloride ions
Transport mechanism
CNPQ::ENGENHARIAS::ENGENHARIA CIVIL::CONSTRUCAO CIVIL
dc.subject.eng.fl_str_mv Concrete
Mineral addition
Silica fume
Blast furnace slag. Capillary absorption
Permeability
Diffusion coefficient
Non-steady-state migration
Penetration of chloride ions
Transport mechanism
dc.subject.cnpq.fl_str_mv CNPQ::ENGENHARIAS::ENGENHARIA CIVIL::CONSTRUCAO CIVIL
description The durability of reinforced concrete structures is damaged by the degrading action of the penetration of substances in the form of gases, vapors and liquids through the pores and cracks. It is known that water both in its pure form or containing dissolved ions such as chloride, sulphate, carbon dioxide or oxygen ions, can compromise the durability of concrete structures. In reinforced concrete structures at the marine environment, for example, the towers of wind power plants, this degradation can be more intense and accelerated. Thus, in the present study were analyzed concretes with different mineral additions (silica fume, blast furnace slag) and water / binder ratios (0.35, 0.45 and 0.55), with the objective to verify if the inside and cover thickness of concrete have some effect on the mechanisms of transport and also the effect of carbonation (only for concrete with w/b equal to 0.55) in the surface layer of concrete is important enough to make dificult the entry of aggressive agents in concrete. For this, the following tests to evaluate the mass transport in concrete were performed: capillary water absorption (NBR 9779:1995), water penetration under pressure (NBR 10787:1994), air permeability (method Figg), penetrability of chloride ion (ASTM C 1202: 2009), non-steadystate migration test (NT BUILD 492:1999). As a result, it was found that the mineral addition used generally provided an improvement in front of the concrete mechanisms of mass transport. In one of the properties, namely the diffusion coefficient (non-steady-state migration) of concrete with the use of silica fume and blast furnace slag, this has been reduced dramatically, around 11 times for the concrete with w/b equal to 0.55, when it is compared with concrete without mineral addition. It was observed that the inner region of concrete behaved better, in an unexpected way, than concrete cover region for some properties (capillary absorption, water penetration under pressure, penetration of chloride ions). From this conclusion, it can be said that the inner part of concrete is composed of transition zones (aggregated interface / mortar) exposed to facilitate the entry of fluids, gases and ions. About the effect of carbonation, this affected the capillary absorption and air permeability. The results led to explain that the clogging of the pores resulting from the product of carbonation (CaCO3), promoted the refinement of the pores, thus increasing capillary force and, consequently, increasing the capillary absorption. However, for air permeability this effect has damaged the passage of air through the surface layer. Finally, it is important noting that significant correlations were found among tests that evaluated the mechanisms of mass transport, namely, penetration of chloride ions and capillary absorption, diffusion coefficient (non-steady-state migration) and capillary absorption, permeability air and water penetration under pressure, penetration of chloride ions and the diffusion coefficient.
publishDate 2009
dc.date.issued.fl_str_mv 2009-10-06
dc.date.available.fl_str_mv 2010-05-31
dc.date.accessioned.fl_str_mv 2014-07-29T15:18:25Z
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dc.identifier.citation.fl_str_mv MENDES, Marcus Vinícius Araújo da Silva. Evaluation of the mass transport containing mineral admixtures. 2009. 201 f. Dissertação (Mestrado em Engenharias) - Universidade Federal de Goiás, Goiânia, 2009.
dc.identifier.uri.fl_str_mv http://repositorio.bc.ufg.br/tede/handle/tde/1353
dc.identifier.dark.fl_str_mv ark:/38995/00130000009c4
identifier_str_mv MENDES, Marcus Vinícius Araújo da Silva. Evaluation of the mass transport containing mineral admixtures. 2009. 201 f. Dissertação (Mestrado em Engenharias) - Universidade Federal de Goiás, Goiânia, 2009.
ark:/38995/00130000009c4
url http://repositorio.bc.ufg.br/tede/handle/tde/1353
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