Modelo de optimización de estructuras viales que influyen en vías de segundo orden, 2022.

Abstract

The present investigation is carried out for the second order roads of the Province of El Oro that present deficiencies in the pavement structure, where it leads us to an improvement in the structures, for a longer life and a reduction in construction costs. For this reason, the objective of developing a pavement thickness optimization model was proposed, starting from the stabilization of the subgrade with cement that improves the mechanical properties of the soil and the resistance to climatic conditions on second-order roads. The method used to obtain an optimized model consists of two parts: The analysis and design with the ASSTHO method and the analysis using the fatigue and deformation analytical method. The method consists of proposing an initial condition by calculating thicknesses based on the ASSHTO 93 Method. Subsequently, simulations are carried out where fatigue and deformation values are analyzed, which indicate the failure of the wearing course and admissible vertical deformation of the subgrade. In this process, several interactions will be carried out, based on the thicknesses obtained with the improved subgrade until permissible deformations are obtained within the permitted ranges. As a result, the optimization model was applied in the case study of the Chilla - Quera road of 15 km, where soil information was obtained, finding a CBR of 2.7% and traffic with an ESAL's of 86078 equivalent axes. The model that was obtained contains minimum characteristics which are: The thickness of the asphalt layer must be greater than 9 cm with a modulus of elasticity greater than 3000 MPa, for the base the thickness is between 10 and 15 cm, with a modulus of elasticity between 195 and 365 MPa, for the subbase the thickness will be greater than 20cm with a modulus of elasticity greater than 120MPa and a base stabilized with soil-cement of 15cm with a modulus of elasticity greater than 1000MPa.