Bibliographic citations
Quispe, C., Natzmar, G. (2024). Reducción del riesgo sísmico a través del diseño estructural en concreto armado del Pabellón SUM-Administrativo de la I.E. San Cristóbal en el centro poblado de Palcamayo - Junín [Trabajo de Suficiencia Profesional, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/674764
Quispe, C., Natzmar, G. Reducción del riesgo sísmico a través del diseño estructural en concreto armado del Pabellón SUM-Administrativo de la I.E. San Cristóbal en el centro poblado de Palcamayo - Junín [Trabajo de Suficiencia Profesional]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2024. http://hdl.handle.net/10757/674764
@misc{renati/419475,
title = "Reducción del riesgo sísmico a través del diseño estructural en concreto armado del Pabellón SUM-Administrativo de la I.E. San Cristóbal en el centro poblado de Palcamayo - Junín",
author = "Natzmar Bonilla, Gneomar Kurt",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2024"
}
This project addresses the analysis and design of a two-story reinforced concrete structure for educational infrastructure in Junín, with the objective of reducing the seismic risk of the existing precarious building by replacing it with an earthquake-resistant design. The existing structure lacks an adequate structural system and does not meet the minimum concrete resistance that the elements must have to be considered structurally adequate according to E.060, representing a high seismic risk. The proposed structure faces gravity and earthquake loads on a 452.84 m² plot of moderately rigid soil. A structural wall system is used according to regulations E.060 for reinforced concrete, E.030 for earthquake-resistant design and E.020 for loads. With a two-story architectural plan, the appropriate structuring is defined following the criteria of engineer Blanco (1994). Preliminary calculations are made to size shear walls, beams and slabs. The static and dynamic seismic analysis is carried out using the Etabs Software, in accordance with the E.030 standard. Once the analysis is completed, the structural elements are designed according to the E.060 standard. The inelastic drifts obtained are 0.0022 in the horizontal direction and 0.0018 in the vertical direction, they are less than the limit of 0.007 for reinforced concrete buildings. In addition, it is verified that the wall system is suitable for essential buildings according to standard E.030. It is ensured that the elements withstand seismic forces and gravity loads, achieving a seismic-resistant design with a lower seismic risk compared to existing buildings.
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