Estudo de tratamentos com lítio no combate da reação álcali-agregado
| Autor(a) principal: | |
|---|---|
| Data de Publicação: | 2009 |
| Tipo de documento: | Dissertação |
| Idioma: | por |
| Título da fonte: | Repositório Institucional da UFG |
| Texto Completo: | http://repositorio.bc.ufg.br/tede/handle/tde/1350 |
Resumo: | The alkali-aggregate reaction (AAR) is one of the deterioration processes of concrete that most affects the structures of hydroelectric plants, concrete dams and bridges. In recent years, the efficiency of lithium based compounds to mitigate RAA has been proven in both the prevention and repair of the affected structures. With regards to treatment, the main challenge nowadays is how to ensure the adequate impregnation of concrete with the lithium solution. Given this difficulty, the objective of this research is to investigate in laboratory conditions, the efficiency of various types of treatment, using a product based on lithium nitrate. The treatments sought to prevent or minimize the residual expansion of AAR, in particular the alkali-silica reaction (ASR), already under development in the concrete and mortar. The study was divided into two stages, the first one performed in concrete prisms, from an adaptation of the Brazilian standard NBR 15577-6/2008, and the second stage in mortar bars, from an adaptation of NBR 15577-4/2008. The treatments were performed after the specimens reached a predetermined level of defined expansion: 0.04% for the concretes and 0.18% for the mortars. In the case of the concretes, the treatments were electrochemical lithium impregnation and surface saturation with lithium, in addition to their respective reference procedures (impregnation and surface saturation with water). For the mortars, the situations tested were: vacuum impregnation with lithium, total saturation in lithium, surface saturation in lithium, water immersion and wrapping in plastic film. After each exposure/treatment condition, the specimens returned to the accelerated expansion attack process in order to evaluate the effectiveness of each treatment. The results demonstrated the efficiency of the lithium based composite to mitigate the residual expansion, both in the concretes as well as in the mortars, with a different behavior depending on the conditions used. The treatment that had the best efficiency in the concrete, under the applied experimental conditions, was the surface saturation of lithium, achieving a 90% reduction in the residual values of expansions at the end of the attack (73 days), taking as reference the surface saturation condition with water. The lithium electrochemical impregnation performed was able to mitigate the residual expansions, but only up to the age of 42 days after treatment, at which time the reduction was of 50%. In fact, at 73 days the expansions were similar to those of the untreated sample. All treatments with lithium performed in the mortars were able to mitigate the residual expansions at levels approaching reduction of expansion (about 87%), with the total saturation in lithium the most efficient condition. |
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HASPARYK, Nicole Paganhttp://lattes.cnpq.br/4932240949129648http://lattes.cnpq.br/0739897482155480CÂNDIDO, Wilson Ferreira2014-07-29T15:18:25Z2010-03-112009-09-11CÂNDIDO, Wilson Ferreira. Study of lithium treatments in mitigating alkali-aggregate reaction. 2009. 80 f. Dissertação (Mestrado em Engenharias) - Universidade Federal de Goiás, Goiânia, 2009.http://repositorio.bc.ufg.br/tede/handle/tde/1350The alkali-aggregate reaction (AAR) is one of the deterioration processes of concrete that most affects the structures of hydroelectric plants, concrete dams and bridges. In recent years, the efficiency of lithium based compounds to mitigate RAA has been proven in both the prevention and repair of the affected structures. With regards to treatment, the main challenge nowadays is how to ensure the adequate impregnation of concrete with the lithium solution. Given this difficulty, the objective of this research is to investigate in laboratory conditions, the efficiency of various types of treatment, using a product based on lithium nitrate. The treatments sought to prevent or minimize the residual expansion of AAR, in particular the alkali-silica reaction (ASR), already under development in the concrete and mortar. The study was divided into two stages, the first one performed in concrete prisms, from an adaptation of the Brazilian standard NBR 15577-6/2008, and the second stage in mortar bars, from an adaptation of NBR 15577-4/2008. The treatments were performed after the specimens reached a predetermined level of defined expansion: 0.04% for the concretes and 0.18% for the mortars. In the case of the concretes, the treatments were electrochemical lithium impregnation and surface saturation with lithium, in addition to their respective reference procedures (impregnation and surface saturation with water). For the mortars, the situations tested were: vacuum impregnation with lithium, total saturation in lithium, surface saturation in lithium, water immersion and wrapping in plastic film. After each exposure/treatment condition, the specimens returned to the accelerated expansion attack process in order to evaluate the effectiveness of each treatment. The results demonstrated the efficiency of the lithium based composite to mitigate the residual expansion, both in the concretes as well as in the mortars, with a different behavior depending on the conditions used. The treatment that had the best efficiency in the concrete, under the applied experimental conditions, was the surface saturation of lithium, achieving a 90% reduction in the residual values of expansions at the end of the attack (73 days), taking as reference the surface saturation condition with water. The lithium electrochemical impregnation performed was able to mitigate the residual expansions, but only up to the age of 42 days after treatment, at which time the reduction was of 50%. In fact, at 73 days the expansions were similar to those of the untreated sample. All treatments with lithium performed in the mortars were able to mitigate the residual expansions at levels approaching reduction of expansion (about 87%), with the total saturation in lithium the most efficient condition.A reação álcali-agregado (RAA) é uma das formas de deterioração do concreto que afeta principalmente as estruturas de usinas hidrelétricas, barragens de concreto e pontes. Nos últimos anos, a eficiência dos compostos à base de lítio em mitigar a RAA tem sido comprovada, tanto na prevenção quanto no reparo de estruturas afetadas. O principal desafio atualmente, no que tange ao tratamento, é a maneira de como garantir uma adequada impregnação do concreto com a solução de lítio. Tendo em vista essa dificuldade, o objetivo da presente pesquisa foi investigar, em laboratório, a eficiência de diversos tipos de tratamento, utilizando um produto à base de nitrato de lítio. Buscou-se com os tratamentos combater ou minimizar as expansões residuais da RAA, mais especificamente da reação álcali-sílica (RAS), já iniciada no concreto e argamassa. O estudo foi divido em duas etapas, sendo a primeira realizada em prismas de concreto, a partir de uma adaptação da NBR15577-6/2008, e a segunda etapa em barras de argamassa, a partir de uma adaptação da NBR 15577-4/2008. Os tratamentos foram realizados após os corpos-de-prova atingirem um determinado nível de expansão definido, a saber: 0,04% para os concretos e 0,18% para as argamassas. No caso dos concretos, os tratamentos realizados foram: impregnação eletroquímica de lítio e saturação superficial com lítio, além de suas situações de referência (impregnação e saturação superficial com água). No caso das argamassas, as situações testadas foram: impregnação a vácuo com lítio, saturação total em lítio, saturação superficial em lítio, imersão em água e envolvimento em filme plástico. Após cada condição de exposição/tratamento, os corpos-de-prova retornaram para o processo de ataque acelerado de expansão visando-se avaliar a eficiência de cada tratamento. Os resultados demonstraram a eficiência do composto à base de lítio em mitigar as expansões residuais, tanto nos concretos como nas argamassas, com comportamento diferenciado dependendo das condições empregadas. O tratamento que teve a melhor eficiência em concreto, nas condições empregadas, foi a saturação superficial de lítio, atingindo uma redução de 90% nos valores das expansões residuais, ao final do ataque (73 dias), tomando-se como referência a condição saturação superficial com água. Já a impregnação eletroquímica de lítio realizada foi capaz de mitigar as expansões residuais, mas apenas até a idade de 42 dias pós-tratamento, onde a redução foi da ordem de 50% nesta idade; aos 73 dias as expansões apresentaram-se semelhantes às da amostra não tratada. Todos os tratamentos com lítio realizados nas argamassas foram capazes de mitigar as expansões residuais em níveis próximos de redução das expansões (da ordem de 87%), sendo a saturação total em lítio a condição mais eficiente.Made available in DSpace on 2014-07-29T15:18:25Z (GMT). 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| dc.title.por.fl_str_mv |
Estudo de tratamentos com lítio no combate da reação álcali-agregado |
| dc.title.alternative.eng.fl_str_mv |
Study of lithium treatments in mitigating alkali-aggregate reaction |
| title |
Estudo de tratamentos com lítio no combate da reação álcali-agregado |
| spellingShingle |
Estudo de tratamentos com lítio no combate da reação álcali-agregado CÂNDIDO, Wilson Ferreira concreto durabilidade reação álcali-agregado tratamento lítio concrete durability alkali-aggregate reaction treatment lithium CNPQ::ENGENHARIAS::ENGENHARIA CIVIL::GEOTECNICA |
| title_short |
Estudo de tratamentos com lítio no combate da reação álcali-agregado |
| title_full |
Estudo de tratamentos com lítio no combate da reação álcali-agregado |
| title_fullStr |
Estudo de tratamentos com lítio no combate da reação álcali-agregado |
| title_full_unstemmed |
Estudo de tratamentos com lítio no combate da reação álcali-agregado |
| title_sort |
Estudo de tratamentos com lítio no combate da reação álcali-agregado |
| author |
CÂNDIDO, Wilson Ferreira |
| author_facet |
CÂNDIDO, Wilson Ferreira |
| author_role |
author |
| dc.contributor.advisor1.fl_str_mv |
HASPARYK, Nicole Pagan |
| dc.contributor.advisor1Lattes.fl_str_mv |
http://lattes.cnpq.br/4932240949129648 |
| dc.contributor.authorLattes.fl_str_mv |
http://lattes.cnpq.br/0739897482155480 |
| dc.contributor.author.fl_str_mv |
CÂNDIDO, Wilson Ferreira |
| contributor_str_mv |
HASPARYK, Nicole Pagan |
| dc.subject.por.fl_str_mv |
concreto durabilidade reação álcali-agregado tratamento lítio |
| topic |
concreto durabilidade reação álcali-agregado tratamento lítio concrete durability alkali-aggregate reaction treatment lithium CNPQ::ENGENHARIAS::ENGENHARIA CIVIL::GEOTECNICA |
| dc.subject.eng.fl_str_mv |
concrete durability alkali-aggregate reaction treatment lithium |
| dc.subject.cnpq.fl_str_mv |
CNPQ::ENGENHARIAS::ENGENHARIA CIVIL::GEOTECNICA |
| description |
The alkali-aggregate reaction (AAR) is one of the deterioration processes of concrete that most affects the structures of hydroelectric plants, concrete dams and bridges. In recent years, the efficiency of lithium based compounds to mitigate RAA has been proven in both the prevention and repair of the affected structures. With regards to treatment, the main challenge nowadays is how to ensure the adequate impregnation of concrete with the lithium solution. Given this difficulty, the objective of this research is to investigate in laboratory conditions, the efficiency of various types of treatment, using a product based on lithium nitrate. The treatments sought to prevent or minimize the residual expansion of AAR, in particular the alkali-silica reaction (ASR), already under development in the concrete and mortar. The study was divided into two stages, the first one performed in concrete prisms, from an adaptation of the Brazilian standard NBR 15577-6/2008, and the second stage in mortar bars, from an adaptation of NBR 15577-4/2008. The treatments were performed after the specimens reached a predetermined level of defined expansion: 0.04% for the concretes and 0.18% for the mortars. In the case of the concretes, the treatments were electrochemical lithium impregnation and surface saturation with lithium, in addition to their respective reference procedures (impregnation and surface saturation with water). For the mortars, the situations tested were: vacuum impregnation with lithium, total saturation in lithium, surface saturation in lithium, water immersion and wrapping in plastic film. After each exposure/treatment condition, the specimens returned to the accelerated expansion attack process in order to evaluate the effectiveness of each treatment. The results demonstrated the efficiency of the lithium based composite to mitigate the residual expansion, both in the concretes as well as in the mortars, with a different behavior depending on the conditions used. The treatment that had the best efficiency in the concrete, under the applied experimental conditions, was the surface saturation of lithium, achieving a 90% reduction in the residual values of expansions at the end of the attack (73 days), taking as reference the surface saturation condition with water. The lithium electrochemical impregnation performed was able to mitigate the residual expansions, but only up to the age of 42 days after treatment, at which time the reduction was of 50%. In fact, at 73 days the expansions were similar to those of the untreated sample. All treatments with lithium performed in the mortars were able to mitigate the residual expansions at levels approaching reduction of expansion (about 87%), with the total saturation in lithium the most efficient condition. |
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2009 |
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2010-03-11 |
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CÂNDIDO, Wilson Ferreira. Study of lithium treatments in mitigating alkali-aggregate reaction. 2009. 80 f. Dissertação (Mestrado em Engenharias) - Universidade Federal de Goiás, Goiânia, 2009. |
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http://repositorio.bc.ufg.br/tede/handle/tde/1350 |
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CÂNDIDO, Wilson Ferreira. Study of lithium treatments in mitigating alkali-aggregate reaction. 2009. 80 f. Dissertação (Mestrado em Engenharias) - Universidade Federal de Goiás, Goiânia, 2009. |
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