Bibliographic citations
Menéndez, R., Robles, W. (2024). Análisis de la influencia de los métodos de corrección en los tipos de suelo para estabilizar el talud empleando elementos finitos con software plaxis 2d entre las progresivas del km 0+830 al km 0+890 de la carretera alterna Paruro – Anasaya, Cusco 2023 [Universidad Andina del Cusco]. https://hdl.handle.net/20.500.12557/6529
Menéndez, R., Robles, W. Análisis de la influencia de los métodos de corrección en los tipos de suelo para estabilizar el talud empleando elementos finitos con software plaxis 2d entre las progresivas del km 0+830 al km 0+890 de la carretera alterna Paruro – Anasaya, Cusco 2023 []. PE: Universidad Andina del Cusco; 2024. https://hdl.handle.net/20.500.12557/6529
@misc{renati/956407,
title = "Análisis de la influencia de los métodos de corrección en los tipos de suelo para estabilizar el talud empleando elementos finitos con software plaxis 2d entre las progresivas del km 0+830 al km 0+890 de la carretera alterna Paruro – Anasaya, Cusco 2023",
author = "Robles López, Witman André",
publisher = "Universidad Andina del Cusco",
year = "2024"
}
Abstract This research work was carried out on the alternate highway that goes from Paruro to Anasaya, in the department of Cusco, the purpose of the research was to analyze the influence that correction methods have to stabilize the slope under study, where what the aim is to see how the soil interacts with the structure, and in this way search among the correction methods to use, which turns out to give the best results. First, an exploration of the slope under study was carried out to determine the areas where the pits could be excavated, and obtain the samples that will be necessary to carry out the tests to determine the physical and mechanical properties such as their angle of internal friction, cohesion, granulometry, among other. A topographic survey was also carried out to obtain the necessary points that will be of vital importance for the import into the Plaxis 2D software, and in this way carry out the analysis and modeling from which the safety factor that the corrective method contributes to the stability of the slope. As it is necessary to know the presence of water and strata at greater depths where the pits do not make it possible to reach, an electrical tomography was performed, which is a geophysical method that helps determine these requirements. Once the analyzes are completed, there are values of total deformation, vertical deformations, horizontal deformations and the safety factor, where first the initial safety factor of the slope was obtained as 1.536, and when placing a bench and draining it, the FS increases to 1.554, however, when placing a retaining wall, the FS is 1.658, while when placing the geogrid, the FS value is 1.722, this being the highest value obtained. As a contribution from this research, it is concluded that, for the slope of the study area, placing a geogrid on it would increase its stability, guaranteeing greater safety for vehicles and people who use the road for their mobilization.
This item is licensed under a Creative Commons License