Citas bibligráficas
Vargas, E., (2022). Estudio de la convergencia numérica del algoritmo de análisis estático no lineal de pórticos planos con disipadores por desplazamiento [Tesis, Universidad Nacional de Ingeniería]. http://hdl.handle.net/20.500.14076/22883
Vargas, E., Estudio de la convergencia numérica del algoritmo de análisis estático no lineal de pórticos planos con disipadores por desplazamiento [Tesis]. PE: Universidad Nacional de Ingeniería; 2022. http://hdl.handle.net/20.500.14076/22883
@misc{renati/712240,
title = "Estudio de la convergencia numérica del algoritmo de análisis estático no lineal de pórticos planos con disipadores por desplazamiento",
author = "Vargas Cadillo, Edwin Firpo",
publisher = "Universidad Nacional de Ingeniería",
year = "2022"
}
The purpose of this study is achievement of the numerical convergence’s using Taylor’s series in the Nonlinear Static Analysis on reinforced concrete frame struc- tures with eccentrically braced system. This braced system incorporate energy dis- sipation devices through metallic plastification elements called ADAS and TADAS (Added Damping and Stiffness). The work begins presenting the basic seismic engineering concepts for the rein- forced concrete study case. Here, the concepts of ductility and strength beyond the elastic range are presented. In resume, the nonlinearity is represented through a capacity curve that contains information of the equivalent uncoupled system and then return to the real system associating the forces and interstory displacement on each floor. To get an approximation of the capacity curve the modified Newton method is used, wich is an iterative numerical method to solve nonlinear system equations. However, to probe the method convergence, in this research the system of equilibrium equations are presented in uncoupled way using the mathematical graph theory. The nonlinear material behavior is faced by using diverse models proposed by re- searchers such as Park and Paulay for reinforced steel, Mander for the concrete model and Nilsen for bi-lineal behavior model to hysteretic dissipator according to experimental results. Structural behavior of ADAS and TADAS devices together with Chevron inverted V-braced, are modeled as an equivalent diagonal and was taken as a reference from others researchers. Material degradation for strength de- mand in each beam and column is proposed by the Giberson model (1967) which considers formation of plastic hinges; it has also been necessary to draw up the curvature moment diagram for elements subjected to bending stresses. The final purpose of this research is the application of the performance based design, which is a procedure that simplified the Nonlinear Static Analysis (also known as Pushover analysis). A four-story concrete frame structure is studied, first without an energy dissipation system and then the same building with energy devi-ces (ADAS and TADAS).
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