Bibliographic citations
Murillo, J., Martinez, R. (2024). Evaluación estructural y económica de una edificación comercial con sistemas de concreto armado convencional y postensado en vigas, con un análisis no lineal Pushover y desempeño sísmico, en la ciudad de Lima [Tesis, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/683173
Murillo, J., Martinez, R. Evaluación estructural y económica de una edificación comercial con sistemas de concreto armado convencional y postensado en vigas, con un análisis no lineal Pushover y desempeño sísmico, en la ciudad de Lima [Tesis]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2024. http://hdl.handle.net/10757/683173
@misc{renati/1032744,
title = "Evaluación estructural y económica de una edificación comercial con sistemas de concreto armado convencional y postensado en vigas, con un análisis no lineal Pushover y desempeño sísmico, en la ciudad de Lima",
author = "Martinez Romero, Robert Denilson",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2024"
}
The main objective of this research was to evaluate the structural and seismic behavior of a commercial building in Lima, using conventional reinforced concrete and post-tensioned concrete systems in beams. The aim was to analyze the differences in seismic performance, material behavior, and associated costs of these systems. To achieve this objective, non-linear Pushover analyses were conducted to study the behavior of the structures under seismic loads. The stress-strain curves of steel and concrete were examined, identifying the characteristics of both materials. Plastic hinges in beams were analyzed, evaluating their strength and asymmetry in positive and negative bending. Furthermore, the structure was modeled using engineering software like ETABS, and capacity curves were generated. The results were compared between conventional reinforced concrete and post-tensioned structures. The findings indicate that, overall, conventional reinforced concrete structures demonstrated better seismic performance than post-tensioned concrete structures. Greater resistance to positive bending was observed in the plastic hinges of reinforced concrete beams, while post-tensioned beams predominantly exhibited positive bending. For a seismic demand with a return period of 475 years, the structures met "life safety" criteria, but for a 2500-year return period, higher demands and deformations were observed. Based on the results, it is concluded that conventional reinforced concrete exhibits better seismic behavior in the studied commercial building. Symmetry was identified in the stress-strain curve of steel and a parabolic shape in the concrete curve. Plastic hinges displayed asymmetry in their behavior. The strength and deformation capacity of the structures were adequate for seismic events with a 475-year return period but were exceeded in a 2500-year scenario. Additionally, the influence of beam length on construction costs was highlighted, with post-tensioned concrete being more cost-effective for spans greater than 10 meters.
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