Citas bibligráficas
Quispe, A., Vassallo, S. (2024). Diseño geométrico y estructural del pavimento flexible entre el centro poblado Cancas hasta Punta Mero, departamento de Tumbes – 2022 [Tesis, Universidad Privada Antenor Orrego]. https://hdl.handle.net/20.500.12759/36871
Quispe, A., Vassallo, S. Diseño geométrico y estructural del pavimento flexible entre el centro poblado Cancas hasta Punta Mero, departamento de Tumbes – 2022 [Tesis]. PE: Universidad Privada Antenor Orrego; 2024. https://hdl.handle.net/20.500.12759/36871
@misc{renati/379436,
title = "Diseño geométrico y estructural del pavimento flexible entre el centro poblado Cancas hasta Punta Mero, departamento de Tumbes – 2022",
author = "Vassallo Castro, Sean",
publisher = "Universidad Privada Antenor Orrego",
year = "2024"
}
The present study focused on the geometric and structural design of the flexible pavement between the populated centre of Cancas to Punta Mero, in the Department of Tumbes. Various specific objectives were set, which included topographic study, soil mechanics tests, traffic volume study, and determination of the optimum pavement thicknesses using the AASHTO 93 methodology. The georeferencing and topographic survey provided a solid foundation for geometric design, highlighting the importance of a detailed understanding of the terrain in the planning of road infrastructures. In the soil mechanics tests, an AASHTO A-2-4(0) soil classification was identified with CBR values between 7% and 8% at 95% of the MDS of Modified Proctor, indicating a regular support capacity and suggesting the need to improve the soil to optimise the pavement structure. The traffic study revealed variabilities in the Annual Average Daily Indexes (IMDA) between sections, which highlighted the need for careful planning to ensure that the pavement can withstand the projected traffic demands for the period 2022-2027. In the structural design analysis, it was found that the current site conditions and proposed materials are suitable to meet these traffic demands during the specified design period. The discussions arising from each objective underscored the importance of accurate soil and traffic assessment, as well as the selection of suitable materials to face the extreme climatic conditions identified in the study stretch. Recommendations included the carrying out of periodic soil and traffic analyses, exploration of alternative materials, and consideration of emerging technologies to obtain more accurate topographic data. In conclusion, this study provides a robust informational basis and valuable recommendations for the planning and design of an optimum and economical flexible pavement between Cancas and Punta Mero. The resulting findings and recommendations promise to significantly contribute to the improvement of road infrastructure in this region, ensuring a durable and efficient road network that can meet traffic demands in the near future
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