Principales tipo de contracción, efectos sobre el concreto y sus métodos de mitigación

The phenomenon of the shrinkage is one of the main factors that affect the durability of concrete, this is presented as a consequence of the loss of moisture generated in the processes of hydration of cement, in addition to the interference of internal factors, as the chemical composition of the com...

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Autores:: Maurello Porras, Juan Felipe
Mondragón Aguja, Karen Nathalia
Romero Mora, Juan Camilo

Tipo de recurso:

Fecha de publicación:: 2020

Institución:: Escuela Colombiana de Ingeniería Julio Garavito

Repositorio:: Repositorio Institucional ECI

Idioma:: spa

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dc.title.spa.fl_str_mv	Principales tipo de contracción, efectos sobre el concreto y sus métodos de mitigación
title	Principales tipo de contracción, efectos sobre el concreto y sus métodos de mitigación
spellingShingle	Principales tipo de contracción, efectos sobre el concreto y sus métodos de mitigación Contracción plástica Contracción autógena Contracción por secado Métodos de control Plastic shrinkage Autogenous shrinkage Control methods Drying shrinkage
title_short	Principales tipo de contracción, efectos sobre el concreto y sus métodos de mitigación
title_full	Principales tipo de contracción, efectos sobre el concreto y sus métodos de mitigación
title_fullStr	Principales tipo de contracción, efectos sobre el concreto y sus métodos de mitigación
title_full_unstemmed	Principales tipo de contracción, efectos sobre el concreto y sus métodos de mitigación
title_sort	Principales tipo de contracción, efectos sobre el concreto y sus métodos de mitigación
dc.creator.fl_str_mv	Maurello Porras, Juan Felipe Mondragón Aguja, Karen Nathalia Romero Mora, Juan Camilo
dc.contributor.author.spa.fl_str_mv	Maurello Porras, Juan Felipe Mondragón Aguja, Karen Nathalia Romero Mora, Juan Camilo
dc.subject.spa.fl_str_mv	Contracción plástica Contracción autógena Contracción por secado Métodos de control
topic	Contracción plástica Contracción autógena Contracción por secado Métodos de control Plastic shrinkage Autogenous shrinkage Control methods Drying shrinkage
dc.subject.keywords.spa.fl_str_mv	Plastic shrinkage Autogenous shrinkage Control methods Drying shrinkage
description	The phenomenon of the shrinkage is one of the main factors that affect the durability of concrete, this is presented as a consequence of the loss of moisture generated in the processes of hydration of cement, in addition to the interference of internal factors, as the chemical composition of the components that make up the mixture, and external factors, whether environmental conditions or construction practices. The shrinkage of the concrete is divided primarily into three main stages: Autologous shrinkage, presented in the first hours of the hydration of the cement; plastic shrinkage, presented after 24 hours until the drying stage (28 days) and shrinkage from 28 days to 56 days. There are good practice recommendations to mitigate the negative consequences of total shrinkage at each of its stages, either by using proportions of components of the mixture appropriate to the composition of the cement, the water content-cement, additives for shrinkage reduction, the type of fine and coarse aggregate or, on the other hand, the appropriate use and implementation of steel reinforcement, location of construction joints, contraction joints, expansion joints and curing methods. Within the research it was found that in the mitigation practices of autologous shrinkage in the concrete a very effective option is the use of aggregates that allow the internal curing of the concrete, practice consisting of an internal supply of water thanks to saturated aggregates, other options use shrinking or expanding additives and even a combination of these. Methods to mitigate plastic shrinkage found that the use of polypropylene fibers as well as the use of additives as shrinkage reducers, potentially reduce the development of cracks, thanks to the fact that the fibers provide resistance to the contraction of the paste, in addition to a greater traction capacity. Finally, in the methods to mitigate drying contraction it was found that the reinforcement designs of the elements should be concentrated in critical stress areas such as the corners or edges of the cross sections; practice consisting of an internal supply of water thanks to saturated aggregates, other options use shrinking or expanding additives and even a combination of these. Methods to mitigate plastic shrinkage found that the use of polypropylene fibers as well as the use of additives as shrinkage reducers, potentially reduce the development of cracks, thanks to the fact that the fibers provide resistance to the contraction of the paste, in addition to a greater traction capacity. Finally, in the methods to mitigate drying contraction it was found that the reinforcement designs of the elements should be concentrated in critical stress areas such as the corners or edges of the cross sections; the use of reducing additives.
publishDate	2020
dc.date.issued.none.fl_str_mv	2020
dc.date.accessioned.none.fl_str_mv	2021-02-11T21:26:15Z 2021-10-01T14:33:00Z
dc.date.available.none.fl_str_mv	2021-02-11T21:26:15Z 2021-10-01T14:33:00Z
dc.type.spa.fl_str_mv	Trabajo de grado - Pregrado
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dc.publisher.spa.fl_str_mv	Escuela Colombiana de Ingeniería Julio Garavito
institution	Escuela Colombiana de Ingeniería Julio Garavito
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spelling	Maurello Porras, Juan Felipe3c5370ae8c40456577389f54ff114fbd600Mondragón Aguja, Karen Nathaliabd08d0de9cb9244c71256cf363241a59600Romero Mora, Juan Camilo2470353b65428b54c6edd3ddf997d3a56002021-02-11T21:26:15Z2021-10-01T14:33:00Z2021-02-11T21:26:15Z2021-10-01T14:33:00Z2020https://catalogo.escuelaing.edu.co/cgi-bin/koha/opac-detail.pl?biblionumber=22585#https://repositorio.escuelaing.edu.co/handle/001/1374The phenomenon of the shrinkage is one of the main factors that affect the durability of concrete, this is presented as a consequence of the loss of moisture generated in the processes of hydration of cement, in addition to the interference of internal factors, as the chemical composition of the components that make up the mixture, and external factors, whether environmental conditions or construction practices. The shrinkage of the concrete is divided primarily into three main stages: Autologous shrinkage, presented in the first hours of the hydration of the cement; plastic shrinkage, presented after 24 hours until the drying stage (28 days) and shrinkage from 28 days to 56 days. There are good practice recommendations to mitigate the negative consequences of total shrinkage at each of its stages, either by using proportions of components of the mixture appropriate to the composition of the cement, the water content-cement, additives for shrinkage reduction, the type of fine and coarse aggregate or, on the other hand, the appropriate use and implementation of steel reinforcement, location of construction joints, contraction joints, expansion joints and curing methods. Within the research it was found that in the mitigation practices of autologous shrinkage in the concrete a very effective option is the use of aggregates that allow the internal curing of the concrete, practice consisting of an internal supply of water thanks to saturated aggregates, other options use shrinking or expanding additives and even a combination of these. Methods to mitigate plastic shrinkage found that the use of polypropylene fibers as well as the use of additives as shrinkage reducers, potentially reduce the development of cracks, thanks to the fact that the fibers provide resistance to the contraction of the paste, in addition to a greater traction capacity. Finally, in the methods to mitigate drying contraction it was found that the reinforcement designs of the elements should be concentrated in critical stress areas such as the corners or edges of the cross sections; practice consisting of an internal supply of water thanks to saturated aggregates, other options use shrinking or expanding additives and even a combination of these. Methods to mitigate plastic shrinkage found that the use of polypropylene fibers as well as the use of additives as shrinkage reducers, potentially reduce the development of cracks, thanks to the fact that the fibers provide resistance to the contraction of the paste, in addition to a greater traction capacity. Finally, in the methods to mitigate drying contraction it was found that the reinforcement designs of the elements should be concentrated in critical stress areas such as the corners or edges of the cross sections; the use of reducing additives.El fenómeno de la contracción es uno de los principales factores que afectan la durabilidad del concreto. Este se presenta como consecuencia de la perdida de humedad generada en los procesos de hidratación del cemento, además de la afectación de factores internos, como la composición química de los componentes que conforman la mezcla; y factores externos, ya sea condiciones ambientales o practicas constructivas. La contracción del concreto se divide primordialmente en tres etapas principales: contracción autógena, presentada en las primeras horas de la hidratación del cemento; contracción plástica, presentada después de las 24 horas hasta la etapa de secado (28 días) y contracción por secado desde los 28 días hasta los 56 días. Existen recomendaciones de buenas práctica para mitigar las consecuencias negativas de la contracción en cada una de sus etapas, ya sea, utilizando proporciones adecuadas de sus diferentes componentes de la mezcla adecuados con la composición química del cemento, la relación de agua-cemento, aditivos para la reducción de la contracción, el tipo de agregado fino y grueso o, por otro lado, el uso e implementación apropiado del acero de refuerzo, ubicación de juntas constructivas, juntas de contracción, juntas de expansión y métodos de curado. Como resultado de la investigación realizada, se evidenció que, en las prácticas de mitigación de la contracción autógena en el concreto, una opción muy efectiva es el uso de agregados que permitan el curado interno del concreto, práctica que consiste en un aporte interno de agua gracias a agregados saturados, otras opciones utilizan aditivos reductores de contracción o expansivos e incluso una combinación de estos o el uso de fibras. En los métodos para mitigar la contracción plástica se encontró que el uso de fibras de polipropileno al igual que el uso de aditivos como reductores de contracción, reducen potencialmente el desarrollo de fisuras, gracias a que las fibras aportan resistencia a la contracción de la pasta, además de una mayor capacidad de tracción. Por último, en los métodos para mitigar la contracción por secado se encontró que los diseños del refuerzo de los elementos deben estar concentrados en zonas críticas de esfuerzos de tensión como las esquinas o bordes de las secciones transversales; el uso de aditivos reductores debe seguir las dosificaciones recomendadas y la idoneidad de aditivos reductores de la contracción en entornos de congelación y descongelación; así mismo, agregados de mayor rigidez no permitirán grandes contracciones, está condición estará representada en términos del módulo secante de los agregados; y utilizar valores de contenido agua cemento menores a 0,50.application/pdfspaEscuela Colombiana de Ingeniería Julio Garavitohttps://creativecommons.org/licenses/by-nc-sa/4.0/http://purl.org/coar/access_right/c_abf2Contracción plásticaContracción autógenaContracción por secadoMétodos de controlPlastic shrinkageAutogenous shrinkageControl methodsDrying shrinkagePrincipales tipo de contracción, efectos sobre el concreto y sus métodos de mitigaciónTrabajo de grado - 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Principales tipo de contracción, efectos sobre el concreto y sus métodos de mitigación

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