Citas bibligráficas
Mamani, C., (2024). Evaluación de requerimientos de ductilidad para elementos de concreto armado resistentes a sismo en edificios con aislamiento sísmico [Pontificia Universidad Católica del Perú]. http://hdl.handle.net/20.500.12404/27955
Mamani, C., Evaluación de requerimientos de ductilidad para elementos de concreto armado resistentes a sismo en edificios con aislamiento sísmico []. PE: Pontificia Universidad Católica del Perú; 2024. http://hdl.handle.net/20.500.12404/27955
@mastersthesis{renati/526703,
title = "Evaluación de requerimientos de ductilidad para elementos de concreto armado resistentes a sismo en edificios con aislamiento sísmico",
author = "Mamani Villalobos, Carmen Giovanna",
publisher = "Pontificia Universidad Católica del Perú",
year = "2024"
}
The purpose of this research is to evaluate the flexural ductility with certain design guidelines for Reinforced Concrete (RC) elements of isolated buildings. This because, at the present time, it does not exist requirements for this type of structure, instead designers use the same requirements thought for fixed-base buildings. Even when the conception of seismic isolation and evidence of their behavior present less ductility demand and incursion in the inelastic range for elements with seismic responsibility, the current codes do not differentiate requirements. It was used seismic experience results of isolated structures and performance analysis developed by other investigators. Between the evidence, it could be mentioned capacity curves, displacement versus story diagrams, Base shear versus displacements, acceleration graphics, and others. There were also used analysis results like pushovers for different proposals and designs, amount and length in formation of plastic hinges, and so on. Based on the information mentioned above it is proposed a new guideline to design RC elements, that would adjust better for isolated structures without neglecting safety margins. Two study cases were evaluated, one of them designed according to the current Peruvian standard and the other designed according to the proposed guidelines. Both study cases have the same structuring and element size, and were subjected to time history nonlinear analysis by direct integration. The investigation comes up with a practice tool that identifies the applicability of the guideline depending on steel quantity and load ratio depending on whether it is beam or column. The evaluation of the cases concludes that the application of the proposed guidelines does not imply a deterioration in the performance of the structure and, on the other hand, its use optimizes the amount of reinforcing steel. This is because the structural elements remain in the elastic range. It means that, for the analyzed cases, the installed ductility is not used.
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