Citas bibligráficas
Jamanca, E., (2022). Diseño de la estabilización de un deslizamiento mediante estructura de suelo reforzado de Geoceldas [Trabajo de suficiencia profesional, Universidad Nacional de Ingeniería]. http://hdl.handle.net/20.500.14076/22819
Jamanca, E., Diseño de la estabilización de un deslizamiento mediante estructura de suelo reforzado de Geoceldas [Trabajo de suficiencia profesional]. PE: Universidad Nacional de Ingeniería; 2022. http://hdl.handle.net/20.500.14076/22819
@misc{renati/712181,
title = "Diseño de la estabilización de un deslizamiento mediante estructura de suelo reforzado de Geoceldas",
author = "Jamanca Espinoza, Eriksson Joseph",
publisher = "Universidad Nacional de Ingeniería",
year = "2022"
}
The present work consists of the application of a reinforced soil structure, which specifically corresponds to a reinforced soil slope of geocells for the integral stabilization of a mass landslide. For the case under study, the theoretical and practical concepts of civil engineering were applied based on the physical stability of slopes. Thus, in principle the theoretical foundations are presented to understand from a general way towards the particular way of the design of a reinforced soil structure. Defining for this that it is a reinforced soil, the types that exist, the basic components that make up this solution, the working mechanism of the geocells, the resistance contribution of the geogrids and the design methodology. Thus, in principle, the theoretical foundations are presented to understand the design of a reinforced soil structure from the general to the particular form. For this, the concepts of reinforced soil, the types that exist, the basic components that make up this solution, the working mechanism of the geocells, the resistance contribution of the geogrids and the design methodology are defined. In order to carry out the design analyzes; it was necessary to determine the parameters of the soils involved after direct and indirect geotechnical field investigations and laboratory tests. In this way, integrating the information collected and generated in a systematic way, it was possible to determine the necessary qualitative and quantitative data. The methodology used was the limit equilibrium to carry out the design under both static and pseudo-static conditions in three scenarios: current, corresponding to the instability start situation to be resolved; during construction with the execution of only material cutting tasks and finished the construction with the final implementation of the reinforced soil structure of geocells. To apply this methodology, the Slide program was used, which summarizes the characteristics and possibilities it offers for design. The results of analyzes are then interpreted in the civil design chapter and then in the next chapter the economic evaluation of the application is developed. Finally, the results of the design and construction allow demonstrating the functionality, integrity, synergy and innovation of the use of geocells in reinforced soil structures for slope stabilization projects. In this way, it seeks to demonstrate and continue to open the possibilities of using geosynthetics in civil projects.
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