Bibliographic citations
Pinto, K., Cubas, E. (2021). Evaluación geotécnica para mejorar el diseño de la cimentación de terraplenes en la carretera yurimaguas – munichis, distrito de yurimaguas, provincia de alto amazonas, departamento de Loreto - 2019 [Tesis, Universidad Científica del Perú]. http://hdl.handle.net/20.500.14503/1194
Pinto, K., Cubas, E. Evaluación geotécnica para mejorar el diseño de la cimentación de terraplenes en la carretera yurimaguas – munichis, distrito de yurimaguas, provincia de alto amazonas, departamento de Loreto - 2019 [Tesis]. PE: Universidad Científica del Perú; 2021. http://hdl.handle.net/20.500.14503/1194
@misc{renati/1036584,
title = "Evaluación geotécnica para mejorar el diseño de la cimentación de terraplenes en la carretera yurimaguas – munichis, distrito de yurimaguas, provincia de alto amazonas, departamento de Loreto - 2019",
author = "Cubas Huanca, Edilberto",
publisher = "Universidad Científica del Perú",
year = "2021"
}
The purpose of this study is to carry out the geotechnical evaluation to improve the design of the embankment foundations on the Yurimaguas - Munichis highway, Alto Amazonas Province, Loreto Department. From the Diffraction Test we obtained the geodetic profile which includes two strata, the first to a depth of 3m with soft soil, the second from 3m to 10m in depth with very dense soil. From the surface wave measurement test in MASW multichannel arrangement with wave type "S" Vs = 30 m / s Fundamental period 0.33, the classification C was obtained: Very dense soil or soft rock (According to the International IBC Code) and a S2 floor: Intermediate floor (according to Technical Standard E030). From the Electrical Tomography test (ERT), three resistivity zones were detected: low resistivity, presence of very humid material from a depth of 7 meters. Medium resistivity, presence of fine materials with presence of medium or bale humidity. High resistivity associated with the presence of resistive material, that is, the conductivity is very low. Regarding the analysis of physical stability, the study was carried out in a zone of high seismic activity zone 3, according to regulation E-030 of the national construction regulations, resulting in the safety factor in static condition 1,527 and pseudo-static 1,031. physically stable complying with the international parameters of factor of safety. According to the analysis of the results obtained in the different tests to determine the geotechnical characteristics of the area under study, we conclude that these results influence the more precise determination of the incidence on the stability of the natural terrain, the hydrological conditions, as well as the materials to be used in the different layers of the stabilization of the foundation in embankments.
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