Citas bibligráficas
Becerra, C., López, J. (2022). Diseño de pavimento asfáltico con geomalla biaxial para mejorar la capacidad de carga del suelo, tramo: Shamboyacu - Santa Rosa – Los Ángeles - Progreso - Picota – San Martín [Tesis, Universidad Científica del Perú]. http://hdl.handle.net/20.500.14503/1929
Becerra, C., López, J. Diseño de pavimento asfáltico con geomalla biaxial para mejorar la capacidad de carga del suelo, tramo: Shamboyacu - Santa Rosa – Los Ángeles - Progreso - Picota – San Martín [Tesis]. PE: Universidad Científica del Perú; 2022. http://hdl.handle.net/20.500.14503/1929
@misc{renati/1037741,
title = "Diseño de pavimento asfáltico con geomalla biaxial para mejorar la capacidad de carga del suelo, tramo: Shamboyacu - Santa Rosa – Los Ángeles - Progreso - Picota – San Martín",
author = "López López, Jefferson Képler",
publisher = "Universidad Científica del Perú",
year = "2022"
}
The present research work called "DESIGN OF ASPHALT PAVEMENT WITH BIAXIAL GEOGRID TO IMPROVE THE LOADING CAPACITY OF THE SOIL, SECTION: SHAMBOYACU - SANTA ROSA - LOS ANGELES - PROGRESO - PICOTA - SAN MARTIN", has raised as a general objective to improve the capacity of Soil loading in the design of a vehicular pavement applying biaxial geogrid proposed for the province of Picota, which will serve as a prototype for all the roads that still need to be paved. The study was applied with a quantitative approach because statistical methods and techniques were used to contrast the truth or falsehood of the hypothesis, it also presented a non-experimental design. It was made up of topographic studies, a study of soil mechanics, which allowed the comparative analysis of the vehicular pavement to be carried out, and observation, planning and design monitoring were used as techniques. The communication channels are an essential part for the economic and social development of the nation, since they not only facilitate the commercialization of goods, but also generate national and foreign investment for the country, which allows improving the local market, thus achieving, Access to all services; so these should always be kept in good condition. The use of biaxial geogrid as reinforcement of the flexible pavement structure is a modern method that is being used worldwide to reduce layer thicknesses, prolonging the useful life of the pavement, achieving more efficient and durable communication routes. The criteria to be considered for the design of flexible pavement structures using the biaxial geogrid as reinforcement and the different types of geogrids available on the market with their different applications are described.
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