Estudo da carbonatação de concretos com adição de nanosílica

Detalhes bibliográficos
Autor(a) principal: Pereira, Fernando do Carmo
Data de Publicação: 2019
Tipo de documento: Dissertação
Idioma: por
Título da fonte: Repositório Institucional da UFSCAR
Texto Completo: https://repositorio.ufscar.br/handle/ufscar/11767
Resumo: The degradation of reinforcing concrete structures reflects in economic and environmental factors. Thus, the desire to minimize it motivates recent research, which aims to add nanomaterials to the cement matrix, seeking to change and improve its properties, among them durability. Nanosilica is a mineral addition with a diameter ranging from 3 to 150 nm, which interacts chemically and physically in the hydration reactions of the cement and in the microstructure of the concrete. Its use still demands knowledge regarding the effect of its incorporation in cementitious composites, such as its influence on the carbonation of the concrete. The penetration of CO2 decreases its alkalinity and generates the disassembling of the armature, which may come running in the presence of oxygen and water, compromising the durability of the structure. In this context, the present work evaluates the accelerated carbonation in concrete with nanosilica, when submitted to the attack of CO2. Traces were formulated with two different water / binder ratios, 0,40 and 0,56. The superplasticizer additive was incorporated only in concretes with water binder ratio equal to 0,40 in order to guarantee the established consistency (230 ± 10 mm). In addition to a reference trait (without mineral addition), cylindrical test specimens (50x100 mm) with different nanosilica contents (1%, 5% and 10%) were molded, as well as a trace with 1% addition of nanosilica together with 10% active silica. The accelerated carbonation tests were performed under two different conditions, a chamber with 15 ± 2% CO2 concentration, relative humidity of 75 ± 5% and temperature of 23 ± 2 °C, and another with a concentration of 3,0 ± 0,5% carbon dioxide, relative humidity 65 ± 5%, and temperature 27 ± 2 °C. In some traits, the pH of the simulated pore solution was also evaluated and microstructural pulp assays performed. The results of the mechanical strength and water absorption tests by capillarity indicate a better performance of the concretes with water/binder ratio equal to 0,40 and the trace with 10% addition of nanosilica showed to be more efficient. In the tests of durability only the specimens with water / binder ratio equal to 0,56 presented carbonation front, independent of the concentration of CO2 to which they were submitted, and there was a greater advance of the attack of CO2 in the trace with addition of 1% of nanosilica and 10% of active silica. The pH evaluation of the simulated pore solution made it possible to observe the clear difference between the values of the carbonate region and the interior of the still uncarbonated test specimen and the microstructural tests indicate a higher amount of calcium hydroxide in the reference trace. Finally, it can be concluded that in larger water/binder ratios, the effect of the porosity on the porosity of the concrete may overlap with the effect of the mineral addition of pore refinement, but the influence of these additions on the mechanical and physical properties, because in the traces with relation water/binder equal to 0,56, in spite of improving them, the addition of nanosílica damages the resistance of the concrete against the attack of CO2, due to the pozzolanic reactions that result in a lower alkaline reserve, and thus, collaborate to further advance the carbonation front.
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spelling Pereira, Fernando do CarmoFerreira, Fernanda Giannotti da Silvahttp://lattes.cnpq.br/0329487394818763http://lattes.cnpq.br/81906133018758199ea5be01-8314-45e7-b5da-047c357bc0ef2019-09-03T18:24:11Z2019-09-03T18:24:11Z2019-04-29PEREIRA, Fernando do Carmo. Estudo da carbonatação de concretos com adição de nanosílica. 2019. Dissertação (Mestrado em Engenharia Civil) – Universidade Federal de São Carlos, São Carlos, 2019. Disponível em: https://repositorio.ufscar.br/handle/ufscar/11767.https://repositorio.ufscar.br/handle/ufscar/11767The degradation of reinforcing concrete structures reflects in economic and environmental factors. Thus, the desire to minimize it motivates recent research, which aims to add nanomaterials to the cement matrix, seeking to change and improve its properties, among them durability. Nanosilica is a mineral addition with a diameter ranging from 3 to 150 nm, which interacts chemically and physically in the hydration reactions of the cement and in the microstructure of the concrete. Its use still demands knowledge regarding the effect of its incorporation in cementitious composites, such as its influence on the carbonation of the concrete. The penetration of CO2 decreases its alkalinity and generates the disassembling of the armature, which may come running in the presence of oxygen and water, compromising the durability of the structure. In this context, the present work evaluates the accelerated carbonation in concrete with nanosilica, when submitted to the attack of CO2. Traces were formulated with two different water / binder ratios, 0,40 and 0,56. The superplasticizer additive was incorporated only in concretes with water binder ratio equal to 0,40 in order to guarantee the established consistency (230 ± 10 mm). In addition to a reference trait (without mineral addition), cylindrical test specimens (50x100 mm) with different nanosilica contents (1%, 5% and 10%) were molded, as well as a trace with 1% addition of nanosilica together with 10% active silica. The accelerated carbonation tests were performed under two different conditions, a chamber with 15 ± 2% CO2 concentration, relative humidity of 75 ± 5% and temperature of 23 ± 2 °C, and another with a concentration of 3,0 ± 0,5% carbon dioxide, relative humidity 65 ± 5%, and temperature 27 ± 2 °C. In some traits, the pH of the simulated pore solution was also evaluated and microstructural pulp assays performed. The results of the mechanical strength and water absorption tests by capillarity indicate a better performance of the concretes with water/binder ratio equal to 0,40 and the trace with 10% addition of nanosilica showed to be more efficient. In the tests of durability only the specimens with water / binder ratio equal to 0,56 presented carbonation front, independent of the concentration of CO2 to which they were submitted, and there was a greater advance of the attack of CO2 in the trace with addition of 1% of nanosilica and 10% of active silica. The pH evaluation of the simulated pore solution made it possible to observe the clear difference between the values of the carbonate region and the interior of the still uncarbonated test specimen and the microstructural tests indicate a higher amount of calcium hydroxide in the reference trace. Finally, it can be concluded that in larger water/binder ratios, the effect of the porosity on the porosity of the concrete may overlap with the effect of the mineral addition of pore refinement, but the influence of these additions on the mechanical and physical properties, because in the traces with relation water/binder equal to 0,56, in spite of improving them, the addition of nanosílica damages the resistance of the concrete against the attack of CO2, due to the pozzolanic reactions that result in a lower alkaline reserve, and thus, collaborate to further advance the carbonation front.A degradação de estruturas de concreto armando reflete em fatores econômicos e ambientais. Assim, o anseio de minimizá-la motiva pesquisas recentes, que visam adicionar nanomateriais à matriz cimentícia, buscando alterar e melhorar as suas propriedades, entre elas a durabilidade. A nanosílica é uma adição mineral com diâmetro entre 3 a 150 nm, que interage de forma química e física nas reações de hidratação do cimento e na microestrutura do concreto. Sua utilização ainda demanda conhecimento com relação ao efeito de sua incorporação a compósitos cimentícios, como por exemplo, sua influência na carbonatação do concreto. A penetração de CO2 diminui a sua alcalinidade e gera a despassivação da armadura, podendo essa vir a correr na presença de oxigênio e água, comprometendo a durabilidade da estrutura. Neste contexto, o presente trabalho avalia a carbonatação acelerada em concretos com nanosílica, quando submetidos ao ataque de CO2. Foram moldados traços com duas relações água/aglomerante distintas, 0,40 e 0,56. O aditivo superplastificante foi incorporado apenas nos concretos com relação água aglomerante igual 0,40 a fim de garantir a consistência estabelecida (230±10 mm). Além de um traço referência (sem adição mineral), foram moldados corpos de prova cilíndricos (50x100 mm) com diferentes teores de nanosílica (1%, 5% e 10%), e também um traço com 1% de adição de nanosílica em conjunto com 10% de sílica ativa. Os ensaios de carbonatação acelerada foram realizados em duas condições diferentes, utilizou-se uma câmara com 15± 2% de concentração de CO2, umidade relativa de 75±5% e temperatura de 23±2°C, e outra com concentração de 3,0±0,5% de CO2, umidade relativa de 65±5%, e temperatura de 27±2°C. Em alguns traços, também foi avaliado o pH da solução de poro simulada e realizados ensaios microestruturais em pasta. Os resultados dos ensaios de resistência mecânica e absorção de água por capilaridade indicam um melhor desempenho dos concretos com relação água/aglomerante igual a 0,40 e o traço com 10% de adição de nanosílica se mostrou mais eficiente. Nos ensaios de durabilidade somente os corpos de prova com relação água/aglomerante igual 0,56 apresentaram frente de carbonatação, independente da concentração de CO2 a que foram submetidos, e houve um maior avanço do ataque de CO2 no traço com adição de 1% de nanosílica e 10% de sílica ativa. A avaliação pH da solução de poro simulada possibilitou observar a nítida diferença entre os valores da região carbonatada com o interior do corpo de prova ainda não carbonatado e os ensaios microestruturais, indicam maior quantidade de hidróxido de cálcio no traço referência. Por fim, conclui-se que em maiores relações água/aglomerante, o efeito que provocam na porosidade dos concretos, pode se sobrepor ao efeito da adição mineral de refinamento dos poros, porém, nota-se a influência dessas adições nas propriedades mecânicas e físicas, pois nos traços com relação água/aglomerante igual a 0,56, apesar de melhora-las, a adição de nanosílica prejudica a resistência do concreto frente ao ataque de CO2, devido as reações pozolânicas que resultam em uma menor reserva alcalina, e assim, colaboram para o maior avanço da frente de carbonatação.Não recebi financiamentoporUniversidade Federal de São CarlosCâmpus São CarlosPrograma de Pós-Graduação em Engenharia Civil - PPGECivUFSCarConcretoDurabilidadeCarbonataçãoNanosílicaConcreteDurabilityCarbonationENGENHARIAS::ENGENHARIA CIVIL::CONSTRUCAO CIVILEstudo da carbonatação de concretos com adição de nanosílicaStudy of carbonation of concrete with addition of nanosilicainfo:eu-repo/semantics/publishedVersioninfo:eu-repo/semantics/masterThesisOnline600600f87ab993-25ae-46c4-9870-968e4b38f539info:eu-repo/semantics/openAccessreponame:Repositório Institucional da UFSCARinstname:Universidade Federal de São Carlos (UFSCAR)instacron:UFSCARORIGINALDissertação- Fernando do Carmo Pereira.pdfDissertação- Fernando do Carmo Pereira.pdfapplication/pdf8340853https://repositorio.ufscar.br/bitstream/ufscar/11767/4/Disserta%c3%a7%c3%a3o-%20Fernando%20do%20Carmo%20Pereira.pdf52c0182d181ed4e4a84f7a4a6068066fMD54LICENSElicense.txtlicense.txttext/plain; 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dc.title.por.fl_str_mv Estudo da carbonatação de concretos com adição de nanosílica
dc.title.alternative.eng.fl_str_mv Study of carbonation of concrete with addition of nanosilica
title Estudo da carbonatação de concretos com adição de nanosílica
spellingShingle Estudo da carbonatação de concretos com adição de nanosílica
Pereira, Fernando do Carmo
Concreto
Durabilidade
Carbonatação
Nanosílica
Concrete
Durability
Carbonation
ENGENHARIAS::ENGENHARIA CIVIL::CONSTRUCAO CIVIL
title_short Estudo da carbonatação de concretos com adição de nanosílica
title_full Estudo da carbonatação de concretos com adição de nanosílica
title_fullStr Estudo da carbonatação de concretos com adição de nanosílica
title_full_unstemmed Estudo da carbonatação de concretos com adição de nanosílica
title_sort Estudo da carbonatação de concretos com adição de nanosílica
author Pereira, Fernando do Carmo
author_facet Pereira, Fernando do Carmo
author_role author
dc.contributor.authorlattes.por.fl_str_mv http://lattes.cnpq.br/8190613301875819
dc.contributor.author.fl_str_mv Pereira, Fernando do Carmo
dc.contributor.advisor1.fl_str_mv Ferreira, Fernanda Giannotti da Silva
dc.contributor.advisor1Lattes.fl_str_mv http://lattes.cnpq.br/0329487394818763
dc.contributor.authorID.fl_str_mv 9ea5be01-8314-45e7-b5da-047c357bc0ef
contributor_str_mv Ferreira, Fernanda Giannotti da Silva
dc.subject.por.fl_str_mv Concreto
Durabilidade
Carbonatação
Nanosílica
topic Concreto
Durabilidade
Carbonatação
Nanosílica
Concrete
Durability
Carbonation
ENGENHARIAS::ENGENHARIA CIVIL::CONSTRUCAO CIVIL
dc.subject.eng.fl_str_mv Concrete
Durability
Carbonation
dc.subject.cnpq.fl_str_mv ENGENHARIAS::ENGENHARIA CIVIL::CONSTRUCAO CIVIL
description The degradation of reinforcing concrete structures reflects in economic and environmental factors. Thus, the desire to minimize it motivates recent research, which aims to add nanomaterials to the cement matrix, seeking to change and improve its properties, among them durability. Nanosilica is a mineral addition with a diameter ranging from 3 to 150 nm, which interacts chemically and physically in the hydration reactions of the cement and in the microstructure of the concrete. Its use still demands knowledge regarding the effect of its incorporation in cementitious composites, such as its influence on the carbonation of the concrete. The penetration of CO2 decreases its alkalinity and generates the disassembling of the armature, which may come running in the presence of oxygen and water, compromising the durability of the structure. In this context, the present work evaluates the accelerated carbonation in concrete with nanosilica, when submitted to the attack of CO2. Traces were formulated with two different water / binder ratios, 0,40 and 0,56. The superplasticizer additive was incorporated only in concretes with water binder ratio equal to 0,40 in order to guarantee the established consistency (230 ± 10 mm). In addition to a reference trait (without mineral addition), cylindrical test specimens (50x100 mm) with different nanosilica contents (1%, 5% and 10%) were molded, as well as a trace with 1% addition of nanosilica together with 10% active silica. The accelerated carbonation tests were performed under two different conditions, a chamber with 15 ± 2% CO2 concentration, relative humidity of 75 ± 5% and temperature of 23 ± 2 °C, and another with a concentration of 3,0 ± 0,5% carbon dioxide, relative humidity 65 ± 5%, and temperature 27 ± 2 °C. In some traits, the pH of the simulated pore solution was also evaluated and microstructural pulp assays performed. The results of the mechanical strength and water absorption tests by capillarity indicate a better performance of the concretes with water/binder ratio equal to 0,40 and the trace with 10% addition of nanosilica showed to be more efficient. In the tests of durability only the specimens with water / binder ratio equal to 0,56 presented carbonation front, independent of the concentration of CO2 to which they were submitted, and there was a greater advance of the attack of CO2 in the trace with addition of 1% of nanosilica and 10% of active silica. The pH evaluation of the simulated pore solution made it possible to observe the clear difference between the values of the carbonate region and the interior of the still uncarbonated test specimen and the microstructural tests indicate a higher amount of calcium hydroxide in the reference trace. Finally, it can be concluded that in larger water/binder ratios, the effect of the porosity on the porosity of the concrete may overlap with the effect of the mineral addition of pore refinement, but the influence of these additions on the mechanical and physical properties, because in the traces with relation water/binder equal to 0,56, in spite of improving them, the addition of nanosílica damages the resistance of the concrete against the attack of CO2, due to the pozzolanic reactions that result in a lower alkaline reserve, and thus, collaborate to further advance the carbonation front.
publishDate 2019
dc.date.accessioned.fl_str_mv 2019-09-03T18:24:11Z
dc.date.available.fl_str_mv 2019-09-03T18:24:11Z
dc.date.issued.fl_str_mv 2019-04-29
dc.type.status.fl_str_mv info:eu-repo/semantics/publishedVersion
dc.type.driver.fl_str_mv info:eu-repo/semantics/masterThesis
format masterThesis
status_str publishedVersion
dc.identifier.citation.fl_str_mv PEREIRA, Fernando do Carmo. Estudo da carbonatação de concretos com adição de nanosílica. 2019. Dissertação (Mestrado em Engenharia Civil) – Universidade Federal de São Carlos, São Carlos, 2019. Disponível em: https://repositorio.ufscar.br/handle/ufscar/11767.
dc.identifier.uri.fl_str_mv https://repositorio.ufscar.br/handle/ufscar/11767
identifier_str_mv PEREIRA, Fernando do Carmo. Estudo da carbonatação de concretos com adição de nanosílica. 2019. Dissertação (Mestrado em Engenharia Civil) – Universidade Federal de São Carlos, São Carlos, 2019. Disponível em: https://repositorio.ufscar.br/handle/ufscar/11767.
url https://repositorio.ufscar.br/handle/ufscar/11767
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language por
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dc.publisher.none.fl_str_mv Universidade Federal de São Carlos
Câmpus São Carlos
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dc.publisher.initials.fl_str_mv UFSCar
publisher.none.fl_str_mv Universidade Federal de São Carlos
Câmpus São Carlos
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institution UFSCAR
reponame_str Repositório Institucional da UFSCAR
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