Bibliographic citations
Vásquez, R., Chávez, E. (2024). DISEÑO DE MEZCLA DE CONCRETO PERMEABLE CON FIBRA DE VIDRIO PARA INCREMENTO DE PROPIEDADES FISICAS Y MECANICAS DE LA LOSA DEL PAVIMENTO RIGIDO EN LA AVENIDA UNIVERSITARIA, HUAMANGA, AYACUCHO [Tesis, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/676226
Vásquez, R., Chávez, E. DISEÑO DE MEZCLA DE CONCRETO PERMEABLE CON FIBRA DE VIDRIO PARA INCREMENTO DE PROPIEDADES FISICAS Y MECANICAS DE LA LOSA DEL PAVIMENTO RIGIDO EN LA AVENIDA UNIVERSITARIA, HUAMANGA, AYACUCHO [Tesis]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2024. http://hdl.handle.net/10757/676226
@misc{renati/902072,
title = "DISEÑO DE MEZCLA DE CONCRETO PERMEABLE CON FIBRA DE VIDRIO PARA INCREMENTO DE PROPIEDADES FISICAS Y MECANICAS DE LA LOSA DEL PAVIMENTO RIGIDO EN LA AVENIDA UNIVERSITARIA, HUAMANGA, AYACUCHO",
author = "Chávez Gamboa, Erik Gabriel",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2024"
}
In Peru, rigid pavements pose a significant risk to society in many areas due to numerous road structures suffering damage from various climatic events, especially from rainfall. Currently, traditional pavements predominate in Peruvian cities and are implemented with supplementary systems for surface drainage. However, when these systems are not well designed, they do not function properly and result in higher repair costs. The study area is a section of Avenida Universitaria, located in the southern highlands of Huamanga, Ayacucho Department. This section exhibits structural failures due to rainfall accumulation, such as premature pavement degradation, cracks, fissures, divided slabs, and loss of adhesion, among other problems. Therefore, the design of permeable concrete mix is proposed. Although it has poor mechanical performance, glass fiber (GF) will be added in proportions of 1%, 2%, and 3%, following ACI 522R-10 mix design standards, to improve the compressive strength, flexural strength, and permeability. Finally, by analyzing the results of the mechanical behavior of the permeable concrete in its hardened state with a 1% glass fiber proportion, it has been shown that this modification is superior to other fiber proportions and to the base permeable concrete. The mix achieved a compressive strength of 262.25 kg/cm², a flexural strength of 35.6 kg/cm², and a permeability of 0.94 cm/s.
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