Análisis y beneficios del uso del concreto ligero con base en esferas de poliestireno en elementos estructurales

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The principal objective of this research is to study the use of lightweight concrete based on spheres of polystyrene in structural elements and denote its benefits in the general structure. This investigation will be divided into two main parts. First, specimensare made for compressive resistances o...

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Detalles Bibliográficos
Autor: Vargas Villegas, Raul Kensel
Formato: tesis de maestría
Fecha de Publicación:2024
Institución:Pontificia Universidad Católica del Perú
Repositorio:PUCP-Tesis
Lenguaje:español
OAI Identifier:oai:tesis.pucp.edu.pe:20.500.12404/29931
Enlace del recurso:http://hdl.handle.net/20.500.12404/29931
Nivel de acceso:acceso abierto
Materia:Concreto--Diseño de estructuras
Agregados (Materiales de construcción)
Resistencia de materiales
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dc.title.none.fl_str_mv Análisis y beneficios del uso del concreto ligero con base en esferas de poliestireno en elementos estructurales
title Análisis y beneficios del uso del concreto ligero con base en esferas de poliestireno en elementos estructurales
spellingShingle Análisis y beneficios del uso del concreto ligero con base en esferas de poliestireno en elementos estructurales
Vargas Villegas, Raul Kensel
Concreto--Diseño de estructuras
Agregados (Materiales de construcción)
Resistencia de materiales
https://purl.org/pe-repo/ocde/ford#2.01.01
title_short Análisis y beneficios del uso del concreto ligero con base en esferas de poliestireno en elementos estructurales
title_full Análisis y beneficios del uso del concreto ligero con base en esferas de poliestireno en elementos estructurales
title_fullStr Análisis y beneficios del uso del concreto ligero con base en esferas de poliestireno en elementos estructurales
title_full_unstemmed Análisis y beneficios del uso del concreto ligero con base en esferas de poliestireno en elementos estructurales
title_sort Análisis y beneficios del uso del concreto ligero con base en esferas de poliestireno en elementos estructurales
author Vargas Villegas, Raul Kensel
author_facet Vargas Villegas, Raul Kensel
author_role author
dc.contributor.advisor.fl_str_mv Quiun Wong, Daniel Roberto
dc.contributor.author.fl_str_mv Vargas Villegas, Raul Kensel
dc.subject.none.fl_str_mv Concreto--Diseño de estructuras
Agregados (Materiales de construcción)
Resistencia de materiales
topic Concreto--Diseño de estructuras
Agregados (Materiales de construcción)
Resistencia de materiales
https://purl.org/pe-repo/ocde/ford#2.01.01
dc.subject.ocde.none.fl_str_mv https://purl.org/pe-repo/ocde/ford#2.01.01
description The principal objective of this research is to study the use of lightweight concrete based on spheres of polystyrene in structural elements and denote its benefits in the general structure. This investigation will be divided into two main parts. First, specimensare made for compressive resistances of 175 kg/cm2 and 210 kg/cm2 with dry specific weights between 1.8 and 2.0 tons per cubic meter, the specimens are tested at ages of 7,14, 21 and 28 days to observe the evolution of the resistance. On the other hand, for the oldest specimens, find the modulus of elasticity and it compare with the Peruvian code E.060 for lightweight concrete. Then, in accordance with the norm ASTM C78, the modulus of rupture of 2 specimens applying loads in the middle thirds are calculated. To end, a cyclic load test is performed on a thin wall of 2000 mm long, 2400 mm high and 10 mm thick and its behavior is analyzed, comparing it with other wall of conventional concrete and similar dimensions. On the second part, with the data obtained, a structural model was prepared for a building with lightweight concrete, and the maximum forces on the base of the buildings were obtained. The results are compared with the building modelled with normal-weight concrete and the design of one of themost requested elements is verified. In addition, in the case of the foundation, the settlements and pressures in the ground are reduced and, consequently, the dimensions of the foundations can be reduced. The results indicate that element can get specific weights less than standard concrete and to get resistances of 175 kg/cm2 and 210 kg/cm2 , the resistance of concrete indicate early evolution in 7 days of approximately 85 percent of the request strength and then presents a 5 percent rise every 7 days. Regarding the modulus of elasticity of the new concrete, it gets a reduction of the 10 percent for the concrete 175 kg/cm2 and reduction for the 15 percent for the concrete 210 kg/cm2 . In the structural design and the reinforcement in a higher load element, it gets a final reduction of steel of 20 percent. Finally, the total weight of the edification was reduced to 80 percent and it is obtained smaller efforts and settlements in the ground.
publishDate 2024
dc.date.created.none.fl_str_mv 2024
dc.date.accessioned.none.fl_str_mv 2025-02-06T14:42:06Z
dc.date.issued.fl_str_mv 2025-02-06
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spelling Quiun Wong, Daniel RobertoVargas Villegas, Raul Kensel2025-02-06T14:42:06Z20242025-02-06http://hdl.handle.net/20.500.12404/29931The principal objective of this research is to study the use of lightweight concrete based on spheres of polystyrene in structural elements and denote its benefits in the general structure. This investigation will be divided into two main parts. First, specimensare made for compressive resistances of 175 kg/cm2 and 210 kg/cm2 with dry specific weights between 1.8 and 2.0 tons per cubic meter, the specimens are tested at ages of 7,14, 21 and 28 days to observe the evolution of the resistance. On the other hand, for the oldest specimens, find the modulus of elasticity and it compare with the Peruvian code E.060 for lightweight concrete. Then, in accordance with the norm ASTM C78, the modulus of rupture of 2 specimens applying loads in the middle thirds are calculated. To end, a cyclic load test is performed on a thin wall of 2000 mm long, 2400 mm high and 10 mm thick and its behavior is analyzed, comparing it with other wall of conventional concrete and similar dimensions. On the second part, with the data obtained, a structural model was prepared for a building with lightweight concrete, and the maximum forces on the base of the buildings were obtained. The results are compared with the building modelled with normal-weight concrete and the design of one of themost requested elements is verified. In addition, in the case of the foundation, the settlements and pressures in the ground are reduced and, consequently, the dimensions of the foundations can be reduced. The results indicate that element can get specific weights less than standard concrete and to get resistances of 175 kg/cm2 and 210 kg/cm2 , the resistance of concrete indicate early evolution in 7 days of approximately 85 percent of the request strength and then presents a 5 percent rise every 7 days. Regarding the modulus of elasticity of the new concrete, it gets a reduction of the 10 percent for the concrete 175 kg/cm2 and reduction for the 15 percent for the concrete 210 kg/cm2 . In the structural design and the reinforcement in a higher load element, it gets a final reduction of steel of 20 percent. Finally, the total weight of the edification was reduced to 80 percent and it is obtained smaller efforts and settlements in the ground.La intención principal de este trabajo es la de demostrar el uso de un concreto con base en esferas de poliestireno en elementos de uso estructural y denotar sus beneficios en la estructura general. Dicha investigación se dividirá en dos grandes partes: En la primera, se realizan probetas para resistencias de 17.5 MPa y de 21 MPa con pesos específicos aproximados de 1.80 toneladas por metro cúbico, las probetas se rompen a 7, 14, 21 y 28 días para saber la evolución de la resistencia. Por otro lado, para las probetas de mayor antigüedad, se halla el módulo de elasticidad y se compara con lo establecido por la Norma E.060 para concretos ligeros. Luego, se determina, según la norma ASTM C78, los módulos de rotura de 2 especímenes aplicando cargas en los tercios medios. Por último, se realiza la prueba de cargas cíclicas a un muro delgado de 2000 mm de largo, 2400 mm de alto y 10 mm de espesor y se analiza su comportamiento comparándolo con otro muro de concreto convencional y mismas dimensiones. En la segunda parte, con los datos obtenidos se realiza un modelo matemático estructural sujeto a cargas verticales de gravedad y cargas sísmicas y se obtienen las fuerzas máximas en la base de la edificación analizada. Las fuerzas son comparadas con las de la misma edificación con un concreto de peso normal y se verifica el diseño de algunos elementos más solicitados. Así mismo, en el caso de la cimentación, también se reducen los asentamientos y esfuerzos en el suelo, produciendo reducciones de dimensiones en zapatas o plateas. Los resultados indican que el elemento puede lograr pesos específicos menores a los del concreto común y llegar a resistencias de 17.5 MPa y 21 MPa, la resistencia del concreto indica una evolución temprana a los 7 días de aproximadamente 85 por ciento de su resistencia solicitada; y luego presenta un ascenso del 5 por ciento cada 7 días. Con respecto al módulo de elasticidad del nuevo concreto, se halla una reducción del 10 por ciento para el concreto de 17.5 MPa y una reducción del 15 por ciento para uno de 21.0 MPa. En el aspecto del diseño estructural y refuerzo hallado en un elemento de mayor carga, se obtiene una reducción final de acero de 20 por ciento. Finalmente, el peso total de la edificación se ha reducido al 80 por ciento y se obtienen menores esfuerzos en el suelo, reduciendo nuestros asentamientos.spaPontificia Universidad Católica del PerúPEinfo:eu-repo/semantics/openAccesshttps://creativecommons.org/licenses/by-nc-sa/2.5/pe/Concreto--Diseño de estructurasAgregados (Materiales de construcción)Resistencia de materialeshttps://purl.org/pe-repo/ocde/ford#2.01.01Análisis y beneficios del uso del concreto ligero con base en esferas de poliestireno en elementos estructuralesinfo:eu-repo/semantics/masterThesisreponame:PUCP-Tesisinstname:Pontificia Universidad Católica del Perúinstacron:PUCPSUNEDUMaestro en Ingeniería CivilMaestríaPontificia Universidad Católica del Perú. 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Análisis y beneficios del uso del concreto ligero con base en esferas de poliestireno en elementos estructurales
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