Bibliographic citations
Otoya, C., Peña, V. (2024). Diseño estructural del pavimento de la Av. Juan Velasco Alvarado del distrito Veintiséis de Octubre-Piura [Tesis, Universidad Privada Antenor Orrego]. https://hdl.handle.net/20.500.12759/29971
Otoya, C., Peña, V. Diseño estructural del pavimento de la Av. Juan Velasco Alvarado del distrito Veintiséis de Octubre-Piura [Tesis]. PE: Universidad Privada Antenor Orrego; 2024. https://hdl.handle.net/20.500.12759/29971
@misc{renati/379634,
title = "Diseño estructural del pavimento de la Av. Juan Velasco Alvarado del distrito Veintiséis de Octubre-Piura",
author = "Peña Barrientos, Víctor Eduardo Toribio",
publisher = "Universidad Privada Antenor Orrego",
year = "2024"
}
Piura is one of the most important cities in Peru and therefore should have an optimal road system that allows the development of its inhabitants. To carry out a good pavement design, public entities, such as city halls and/or regional governments, hire professionals to produce expensive technical files that are often poorly done since they do not respond to the city´s needs such as a high rate of rainfall and a warm climate. The objective of this study is to carry out the structural design of the pavement for the improvement of the vehicular and pedestrian traffic service of Juan Velasco Alvarado Avenue in the Veintisés de Octubre-Piura district. For this purpose, the AASHTO 93 methodology was used, which despite being considered an empirical method, is still valid today in the design of urban and rural roads, the Highway Manual was also used: Soils Geology, Geotechnics and Pavements, the National Building Regulations: Standard CE.010 Urban Pavements and Urban Design Components. Through the study of soil mechanics, the first design parameters of Av. Juan Velasco Alvarado were obtained, where through the study of 8 pits along its 1430 meters of extension, it was possible to determine such as representative CBRs 16.30% and 6.20%. Likewise, the traffic study of the road in question was carried out, in order to determine one of the most important parameters in the design of pavements, which is the calculation of equivalent axes or also called ESAL, for our road under study we were able to determine as a result 1448745 EE for rigid pavement. All these data added to the other parameters such as design period, reliability, standard deviation, compressive strength, modulus of rupture, among others, we were able to obtain the thickness of the concrete slab or rolling layer 10 cm, and as sub foundation 15 cm granular base, and it will not be necessary to use load transfer dowels since the number of equivalent axes is not high enough
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