Bibliographic citations
Lazarte, L., (2024). Análisis lineal y diseño estructural del pabellón “C” de una institución educativa en el A.H. Víctor Raúl, distrito de Piura, 2023 [Tesis, Universidad Privada Antenor Orrego]. https://hdl.handle.net/20.500.12759/39951
Lazarte, L., Análisis lineal y diseño estructural del pabellón “C” de una institución educativa en el A.H. Víctor Raúl, distrito de Piura, 2023 [Tesis]. PE: Universidad Privada Antenor Orrego; 2024. https://hdl.handle.net/20.500.12759/39951
@misc{renati/499785,
title = "Análisis lineal y diseño estructural del pabellón “C” de una institución educativa en el A.H. Víctor Raúl, distrito de Piura, 2023",
author = "Lazarte Moscol, Luis Augusto",
publisher = "Universidad Privada Antenor Orrego",
year = "2024"
}
The general objective of this research work was to carry out the analysis and structural design of pavilion ““C““ of an educational institution in the A.H. Víctor Raul in the district of Piura. The approach of this study is descriptive and of non- experimental design, with a population and sample of 749.25 m2 of roofed area, founded on a S2 soil corresponding to an intermediate soil. For the structuring of pavilion C, it was taken into account that the area in which the project is located corresponds to a highly seismic area, in addition, the indications of the N.T.P. E.030 Seismic Resistant Design were followed, from which the structural system of each axis of the structure was also determined, being this of reinforced concrete frames. The techniques used to collect information on the soil to be founded included a granulometric analysis, moisture content and consistency limits, in addition to performing a DPL test to determine the bearing capacity of the soil, which was 1.08 kg/cm2. For the structuring, it was convenient to use rectangular, T and L columns. For the static and dynamic analysis, the Etabs software was used, with which it was possible to verify that the structure complies with the maximum drifts allowed in both directions. Excel software was used for the interpretation and design of the structural elements, such as beams, columns and lightened slab. For the design of the foundation, the Safe software was used to verify that no differential settlements were produced in the structure that could put the integrity of the building at risk. Finally, the entire structure was designed to comply with the principle of safety in the event of a seismic event, thus guaranteeing the safety of the users' lives and reducing damage to the building's structural elements.
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