Estudo da carbonatação natural de concretos com diferentes adições minerais após 10 anos de exposição
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2013 |
| Tipo de documento: | Dissertação |
| Idioma: | por |
| Título da fonte: | Repositório Institucional da UFG |
| dARK ID: | ark:/38995/0013000001jgn |
| Texto Completo: | http://repositorio.bc.ufg.br/tede/handle/tede/3448 |
Resumo: | Among lots of pathologies that attack the concrete structures stands out the corrosion of the reinforcements, that may be triggered by the phenomenon of carbonation of the concrete, which consists in a physico-chemical process between the carbon dioxide (CO2) from the atmosphere and the cement paste compounds, which has as main result the calcium carbonate precipitation (CaCO3) in a region of the concrete cover, with the formation of a layer that has less alkalinity than that not affected by this phenomenon. The carbonation moves from outside to inside the concrete through a carbonated front, that when it reaches the depth of the reinforcement causes destabilization of the protective passive layer, providing the onset of the corrosion. How many researches are conducted by accelerated carbonation tests, it is of paramount importance that the evaluation process by comparing it with data obtained from samples that have suffered natural carbonation. Facing this reality, this research is conducted based on samples that are exposed in the natural environment (external housed) for a period of ten years, with the general objective of evaluating the results (coefficients and carbonation depths) of natural carbonation process of concrete with different mineral additions, water/binder ratios and curing conditions (moist and dry) over this period. For this realization, samples of concrete produced in 2002, produced in Castro's dissertation (2003). The variables included in the experimental program are: concretes with five types of mineral additions (silica fume (10%), rice husk ash (10%), metakaolin (10%), fly ash (25%), blast furnace slag (65%), these amounts being in partial replacement of cement mass) and the reference concrete, without mineral addition; three water/binder relationships (0.40 , 0.55 and 0.70) and two curing conditions (moist and dry). Measurements were made of natural carbonation through of pH indicator based on phenolphthalein, elaborating a database along time, through measurements with periods of exposure of 0.25 years (91 days), 0.50 years (182 days), 0.82 years (301 days), 3 years, 7 years, 9 years and 10 years, allowing comparative performance evaluation of various concrete containing mineral additions, taking as a base carbonated depths and natural carbonation coefficients data. The results showed that there are significant differences of behavior between different concretes studied and that in the overall analysis of the carbonation natural coefficients, the reference concrete showed the best alone performance, showing that the alkaline reserve is still the predominant effect in terms of against carbonation, but the microstructure refinement provided by additions (physical effect) approaches such chemical aspect, as detected, for example, in concrete with metakaolin. In the correlation between the accelerated carbonation coefficients and the natural carbonation ones, was verified a relation of direct proportionality between the coefficients found for the two procedures, with the coefficient signifying accelerated approximately 7.4 times the natural ratio. The useful life predictions showed periods of time until the carbonation front reaches the cover thickness ranging from 4 years up to 241 years, for the different concretes and situations analyzed. |
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Cascudo, Oswaldohttp://lattes.cnpq.br/3336749062812376Carasek, HelenaCascudo, OswaldoHasparyk, Nicole PaganIsaia, Geraldo Cechellahttp://lattes.cnpq.br/6631973508739412Ferreira, Murillo Batista2014-10-23T18:46:59Z2013-04-29FERREIRA, Murillo Batista. Estudo da carbonatação natural de concretos com diferentes adições minerais após 10 anos de exposição. 2013. 197 f. Dissertação (Mestrado em Geotecnia, Estruturas e Construção Civil) - Universidade Federal de Goiás, Goiânia, 2013.http://repositorio.bc.ufg.br/tede/handle/tede/3448ark:/38995/0013000001jgnAmong lots of pathologies that attack the concrete structures stands out the corrosion of the reinforcements, that may be triggered by the phenomenon of carbonation of the concrete, which consists in a physico-chemical process between the carbon dioxide (CO2) from the atmosphere and the cement paste compounds, which has as main result the calcium carbonate precipitation (CaCO3) in a region of the concrete cover, with the formation of a layer that has less alkalinity than that not affected by this phenomenon. The carbonation moves from outside to inside the concrete through a carbonated front, that when it reaches the depth of the reinforcement causes destabilization of the protective passive layer, providing the onset of the corrosion. How many researches are conducted by accelerated carbonation tests, it is of paramount importance that the evaluation process by comparing it with data obtained from samples that have suffered natural carbonation. Facing this reality, this research is conducted based on samples that are exposed in the natural environment (external housed) for a period of ten years, with the general objective of evaluating the results (coefficients and carbonation depths) of natural carbonation process of concrete with different mineral additions, water/binder ratios and curing conditions (moist and dry) over this period. For this realization, samples of concrete produced in 2002, produced in Castro's dissertation (2003). The variables included in the experimental program are: concretes with five types of mineral additions (silica fume (10%), rice husk ash (10%), metakaolin (10%), fly ash (25%), blast furnace slag (65%), these amounts being in partial replacement of cement mass) and the reference concrete, without mineral addition; three water/binder relationships (0.40 , 0.55 and 0.70) and two curing conditions (moist and dry). Measurements were made of natural carbonation through of pH indicator based on phenolphthalein, elaborating a database along time, through measurements with periods of exposure of 0.25 years (91 days), 0.50 years (182 days), 0.82 years (301 days), 3 years, 7 years, 9 years and 10 years, allowing comparative performance evaluation of various concrete containing mineral additions, taking as a base carbonated depths and natural carbonation coefficients data. The results showed that there are significant differences of behavior between different concretes studied and that in the overall analysis of the carbonation natural coefficients, the reference concrete showed the best alone performance, showing that the alkaline reserve is still the predominant effect in terms of against carbonation, but the microstructure refinement provided by additions (physical effect) approaches such chemical aspect, as detected, for example, in concrete with metakaolin. In the correlation between the accelerated carbonation coefficients and the natural carbonation ones, was verified a relation of direct proportionality between the coefficients found for the two procedures, with the coefficient signifying accelerated approximately 7.4 times the natural ratio. The useful life predictions showed periods of time until the carbonation front reaches the cover thickness ranging from 4 years up to 241 years, for the different concretes and situations analyzed.Dentre as diversas patologias que atacam as estruturas de concreto destaca-se a corrosão das armaduras, que pode ser desencadeada pelo fenômeno da carbonatação do concreto, que consiste em um processo físico-químico entre o gás carbônico (CO2) presente na atmosfera e os compostos da pasta de cimento, tendo como resultado principal a precipitação do carbonato de cálcio (CaCO3) em uma região do cobrimento, com a constituição de uma camada que passa a ter uma alcalinidade significativamente menor do aquela não afetada por esse fenômeno. A carbonatação avança de fora para dentro do concreto, por meio de uma frente carbonatada, que quando atinge a profundidade das armaduras provoca desestabilização da camada passiva protetora, propiciando assim o início da corrosão. Como muitas pesquisas são conduzidas por ensaios de carbonatação acelerada, é de suma importância a avaliação desse processo confrontando-o com dados obtidos de amostras que sofreram cabonatação natural. Diante dessa realidade, esta pesquisa se conduz baseada em amostras que estão expostas no ambiente natural (abrigado externo) por um período de dez anos, com o objetivo geral de avaliar os resultados obtidos (profundidades e coeficientes de carbonatação) do processo de carbonatação natural de concretos com diferentes adições minerais, relações água/aglomerante e processos de cura (úmida e seca) ao longo desse período. Para sua realização, foram utilizados corpos de prova de concreto armado produzidos no ano de 2002, fruto da dissertação de Castro (2003). As variáveis contempladas no programa experimental são: concretos com cinco tipos de adições minerais (sílica ativa (10%), cinza de casca de arroz (10%), metacaulim (10%), cinza volante (25%) e escória alto forno (65%), sendo estes teores em substituição parcial da massa de cimento) e mais o concreto de referência, sem adição mineral; três relações água/aglomerante (0,40; 0,55 e 0,70) e dois procedimentos de cura (úmida e seca). Foram realizadas medidas de carbonatação natural por meio de indicador de pH à base de fenolftaleína, elaborando-se um banco de dados ao longo do tempo, por meio de medidas realizadas com os tempos de exposição de 0,25 anos (91 dias), 0,50 anos (182 dias), 0,82 anos (301 dias), 3 anos, 7 anos, 9 anos e 10 anos, permitindo assim uma avaliação comparativa de desempenho dos diversos concretos contendo adições minerais, tendo-se como base os valores de profundidade carbonatada e os coeficientes de carbonatação natural. Os resultados mostraram que existem diferenças significativas de comportamento entre os diversos concretos estudados e que na análise global dos coeficientes de carbonatação natural, o concreto de referência apresentou isoladamente o melhor desempenho, demonstrando que a reserva alcalina ainda é o efeito preponderante em termos de combate à carbonatação, mas que o refinamento da microestrutura proporcionado pelas adições (efeito físico) se aproxima desse aspecto químico, como se tem, por exemplo, nos concretos com metacaulim. Na correlação entre os coeficientes de carbonatação acelerado e natural, verificou-se uma relação de direta proporcionalidade entre os coeficientes encontrados para os dois procedimentos, com o coeficiente acelerado significando aproximadamente 7,4 vezes o coeficiente natural. Os prognósticos de vida útil mostraram períodos de tempo estimado até a frente de carbonatação atingir a espessura de cobrimento variando desde 4 anos até 241 anos, para os diversos concretos e situações analisadas.Submitted by Erika Demachki (erikademachki@gmail.com) on 2014-10-23T18:20:00Z No. of bitstreams: 2 Dissertação - Murillo Batista Ferreira - 2013.pdf: 2726162 bytes, checksum: b4ad5f67e5b5eff91f35b0296db5a36e (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5)Approved for entry into archive by Jaqueline Silva (jtas29@gmail.com) on 2014-10-23T18:46:59Z (GMT) No. of bitstreams: 2 Dissertação - Murillo Batista Ferreira - 2013.pdf: 2726162 bytes, checksum: b4ad5f67e5b5eff91f35b0296db5a36e (MD5) license_rdf: 23148 bytes, checksum: 9da0b6dfac957114c6a7714714b86306 (MD5)Made available in DSpace on 2014-10-23T18:46:59Z (GMT). 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| dc.title.por.fl_str_mv |
Estudo da carbonatação natural de concretos com diferentes adições minerais após 10 anos de exposição |
| dc.title.alternative.eng.fl_str_mv |
Study of natural carbonation of concrete with different additions minerals after 10 years of exposure |
| title |
Estudo da carbonatação natural de concretos com diferentes adições minerais após 10 anos de exposição |
| spellingShingle |
Estudo da carbonatação natural de concretos com diferentes adições minerais após 10 anos de exposição Ferreira, Murillo Batista Concreto Adições minerais Carbonatação natural Durabilidade Vida útil Concrete Mineral additions Natural carbonation Durability Useful life CONSTRUCAO CIVIL::MATERIAIS E COMPONENTES DE CONSTRUCAO |
| title_short |
Estudo da carbonatação natural de concretos com diferentes adições minerais após 10 anos de exposição |
| title_full |
Estudo da carbonatação natural de concretos com diferentes adições minerais após 10 anos de exposição |
| title_fullStr |
Estudo da carbonatação natural de concretos com diferentes adições minerais após 10 anos de exposição |
| title_full_unstemmed |
Estudo da carbonatação natural de concretos com diferentes adições minerais após 10 anos de exposição |
| title_sort |
Estudo da carbonatação natural de concretos com diferentes adições minerais após 10 anos de exposição |
| author |
Ferreira, Murillo Batista |
| author_facet |
Ferreira, Murillo Batista |
| 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.referee1.fl_str_mv |
Cascudo, Oswaldo |
| dc.contributor.referee2.fl_str_mv |
Hasparyk, Nicole Pagan |
| dc.contributor.referee3.fl_str_mv |
Isaia, Geraldo Cechella |
| dc.contributor.authorLattes.fl_str_mv |
http://lattes.cnpq.br/6631973508739412 |
| dc.contributor.author.fl_str_mv |
Ferreira, Murillo Batista |
| contributor_str_mv |
Cascudo, Oswaldo Carasek, Helena Cascudo, Oswaldo Hasparyk, Nicole Pagan Isaia, Geraldo Cechella |
| dc.subject.por.fl_str_mv |
Concreto Adições minerais Carbonatação natural Durabilidade Vida útil |
| topic |
Concreto Adições minerais Carbonatação natural Durabilidade Vida útil Concrete Mineral additions Natural carbonation Durability Useful life CONSTRUCAO CIVIL::MATERIAIS E COMPONENTES DE CONSTRUCAO |
| dc.subject.eng.fl_str_mv |
Concrete Mineral additions Natural carbonation Durability Useful life |
| dc.subject.cnpq.fl_str_mv |
CONSTRUCAO CIVIL::MATERIAIS E COMPONENTES DE CONSTRUCAO |
| description |
Among lots of pathologies that attack the concrete structures stands out the corrosion of the reinforcements, that may be triggered by the phenomenon of carbonation of the concrete, which consists in a physico-chemical process between the carbon dioxide (CO2) from the atmosphere and the cement paste compounds, which has as main result the calcium carbonate precipitation (CaCO3) in a region of the concrete cover, with the formation of a layer that has less alkalinity than that not affected by this phenomenon. The carbonation moves from outside to inside the concrete through a carbonated front, that when it reaches the depth of the reinforcement causes destabilization of the protective passive layer, providing the onset of the corrosion. How many researches are conducted by accelerated carbonation tests, it is of paramount importance that the evaluation process by comparing it with data obtained from samples that have suffered natural carbonation. Facing this reality, this research is conducted based on samples that are exposed in the natural environment (external housed) for a period of ten years, with the general objective of evaluating the results (coefficients and carbonation depths) of natural carbonation process of concrete with different mineral additions, water/binder ratios and curing conditions (moist and dry) over this period. For this realization, samples of concrete produced in 2002, produced in Castro's dissertation (2003). The variables included in the experimental program are: concretes with five types of mineral additions (silica fume (10%), rice husk ash (10%), metakaolin (10%), fly ash (25%), blast furnace slag (65%), these amounts being in partial replacement of cement mass) and the reference concrete, without mineral addition; three water/binder relationships (0.40 , 0.55 and 0.70) and two curing conditions (moist and dry). Measurements were made of natural carbonation through of pH indicator based on phenolphthalein, elaborating a database along time, through measurements with periods of exposure of 0.25 years (91 days), 0.50 years (182 days), 0.82 years (301 days), 3 years, 7 years, 9 years and 10 years, allowing comparative performance evaluation of various concrete containing mineral additions, taking as a base carbonated depths and natural carbonation coefficients data. The results showed that there are significant differences of behavior between different concretes studied and that in the overall analysis of the carbonation natural coefficients, the reference concrete showed the best alone performance, showing that the alkaline reserve is still the predominant effect in terms of against carbonation, but the microstructure refinement provided by additions (physical effect) approaches such chemical aspect, as detected, for example, in concrete with metakaolin. In the correlation between the accelerated carbonation coefficients and the natural carbonation ones, was verified a relation of direct proportionality between the coefficients found for the two procedures, with the coefficient signifying accelerated approximately 7.4 times the natural ratio. The useful life predictions showed periods of time until the carbonation front reaches the cover thickness ranging from 4 years up to 241 years, for the different concretes and situations analyzed. |
| publishDate |
2013 |
| dc.date.issued.fl_str_mv |
2013-04-29 |
| dc.date.accessioned.fl_str_mv |
2014-10-23T18:46:59Z |
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info:eu-repo/semantics/publishedVersion |
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FERREIRA, Murillo Batista. Estudo da carbonatação natural de concretos com diferentes adições minerais após 10 anos de exposição. 2013. 197 f. Dissertação (Mestrado em Geotecnia, Estruturas e Construção Civil) - Universidade Federal de Goiás, Goiânia, 2013. |
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FERREIRA, Murillo Batista. Estudo da carbonatação natural de concretos com diferentes adições minerais após 10 anos de exposição. 2013. 197 f. Dissertação (Mestrado em Geotecnia, Estruturas e Construção Civil) - Universidade Federal de Goiás, Goiânia, 2013. ark:/38995/0013000001jgn |
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