Bibliographic citations
Navarro, J., Perez, A. (2023). Análisis de las alternativas para el reforzamiento estructural del pilar P-5 del by pass Ovalo Monitor por aumento de carga –Santiago de Surco [Tesis, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/667578
Navarro, J., Perez, A. Análisis de las alternativas para el reforzamiento estructural del pilar P-5 del by pass Ovalo Monitor por aumento de carga –Santiago de Surco [Tesis]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2023. http://hdl.handle.net/10757/667578
@misc{renati/404861,
title = "Análisis de las alternativas para el reforzamiento estructural del pilar P-5 del by pass Ovalo Monitor por aumento de carga –Santiago de Surco",
author = "Perez Barrionuevo, Alexander Jesus",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2023"
}
The present research work consists of increasing the flexural capacity of the P-5 Pillar of the Ovalo Monitor Bypass Project that is built, so that they do not suffer any damage when seismic actions occur, which is why we must analyze the most unfavorable situation of according to the seismic demand. Therefore, three types of structural reinforcement will be used, such as carbon fiber reinforced polymer (CFRP) in confinement and in sheets, as well as jacketed with steel sheath. In order to determine the alternative solution that gives us greater resistance to flexion with the least reduction in ductility and thus obtain a better structural performance. In order to determine the structural reinforcement alternatives, the Iteration and Curvature Moment diagrams have been used to find the design resistance under the National Building Regulations (RNE) and international standards such as American Concrete institute (ACI) . Likewise, the SAP 2000 program was used to model the pillar in its initial condition, the steel jacket option, the carbon fiber options were calculated using the ACI440.2R standard, the iteration diagrams and curvature moment of In the four models, it can be seen that the new load requirement exceeds those offered in the initial model, after the three types of reinforcement only the fiber, the sheets and the steel jacket meet the bending requirements after comparing both types of reinforcement. It is concluded that the best option is the steel jacket for the P-05 Pillar of Bypass Ovalo Monitor.
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