Citas bibligráficas
Rodriguez, L., Rosas, J. (2021). Propuesta para mitigar el riesgo de la falla global en el acantilado ubicado frente a la playa agua dulce-Chorrillos mediante el Sistema de Muro Mecánicamente Estabilizado [Tesis, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/658534
Rodriguez, L., Rosas, J. Propuesta para mitigar el riesgo de la falla global en el acantilado ubicado frente a la playa agua dulce-Chorrillos mediante el Sistema de Muro Mecánicamente Estabilizado [Tesis]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2021. http://hdl.handle.net/10757/658534
@misc{renati/398066,
title = "Propuesta para mitigar el riesgo de la falla global en el acantilado ubicado frente a la playa agua dulce-Chorrillos mediante el Sistema de Muro Mecánicamente Estabilizado",
author = "Rosas Milla, Jesús Silverio",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2021"
}
Considering the great variety of soils found in the Peruvian territory, where the bearing capacity of the land will depend on the history and the formation of the soil, it is important to develop Geotechnical Engineering, more specifically the stabilization of Slopes in areas with risk of failure. in line with the growth of cities and infrastructure projects. In addition, what is sought is to solve this problem considering time, cost and durability, in addition to the landscape conservation of certain areas. This thesis work presents a proposal to mitigate the risk of the Global failure in the cliff of the Costa Verde-Chorrillos through a mechanically stabilized earth wall, the characteristic of the soil being an uncontrolled fill, made up of waste material from the times when the main avenues of the city of Lima were built in the 60s. The wall includes the necessary and adequate tools for a proposal for the design of stability systems that considers the geotechnical, hydraulic and topographic characteristics of the area. Thus, it starts with the recognition of the area to define the input parameters, in addition, a theoretical description of the elements of geotechnical engineering and its field of application is presented. Also, a detailed design approach is made in this type of structures through the LRFD methodology, with the necessary factors to guarantee their global stability. Finally, a structural model is presented with the verification of the main safety factors using digital engineering tools: SOFTWARE MSEW and SLIDE 6.0
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