Bibliographic citations
Mendoza, M., Torres, M. (2022). Propuesta de diseño de pavimento flexible reforzado con geoceldas según la metodología mecanicista para reemplazo del pavimento deteriorado de la avenida Defensores del Morro, tramo: Pantanos de Villa, Chorrillos, 2019-2022 [Tesis, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/660503
Mendoza, M., Torres, M. Propuesta de diseño de pavimento flexible reforzado con geoceldas según la metodología mecanicista para reemplazo del pavimento deteriorado de la avenida Defensores del Morro, tramo: Pantanos de Villa, Chorrillos, 2019-2022 [Tesis]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2022. http://hdl.handle.net/10757/660503
@misc{renati/399929,
title = "Propuesta de diseño de pavimento flexible reforzado con geoceldas según la metodología mecanicista para reemplazo del pavimento deteriorado de la avenida Defensores del Morro, tramo: Pantanos de Villa, Chorrillos, 2019-2022",
author = "Torres Zevallos, Manuel Alonso",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2022"
}
The purpose of this thesis is to propose a flexible pavement design reinforced with geocells located in the sub-base layer and to demonstrate that the incorporation of this material will generate benefits in its mechanical properties (stresses and deformations in each layer that makes up the pavement) as well as in its physical properties (generation of failures and useful life), thus achieving an adequate design for the adverse (particular) characteristics of the section under study. These benefits are necessary because previous designs built in this section have not fulfilled their useful life optimally and have presented superficial and structural failures prematurely. For this, a flexible pavement reinforced with geocells will be designed and evaluated for the Pantanos de Villa section of Defensores del Morro Avenue, which at the beginning of this investigation had the presence of excessive and large structural and surface faults. During the design, the selection of thicknesses of the pavement structure for the section under study was made based on the AASHTO 93 methodology and the WinPAS software, while the verification of the design and implementation of the geocell layer is evaluated using the methodology Mechanistic-Empirical and WinDepav 2.6 software for multi-layer stress and strain analysis. The analysis of the benefits of the use of geocells was carried out by evaluating mainly the following three parameters: Rutting at the subgrade level, Fatigue at the base of the Asphalt Layer and Compression Effort on the subgrade. Finally, it was concluded that the incorporation of a layer of geocells of 15 cm to the bottom of the sub-base layer in the design of flexible pavement does allow a reduction in stress and deformation of the entire structure of the pavement to be designed.
This item is licensed under a Creative Commons License