Maestría en Ingeniería Civil con Mención en Estructuras Metálicas

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Author: search.filters.author.Aleaga Del Salto, Luis AlfonsoSubject: search.filters.subject.ANÁLISIS SÍSMICO

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    Comparación de la respuesta sísmica entre pórticos especiales a momento y pórticos arriostrados excéntricamente, en un edificio de acero de 10 pisos, en el cantón Ambato, provincia de Tungurahua
    (Universidad Técnica de Ambato. Facultad de Ingeniería Civil y Mecánica. Maestría en Ingeniería Civil con Mención en Estructuras Metálicas, 2022-09) Aleaga Del Salto, Luis Alfonso; Guevara Robalino, Jorge Javier
    Ecuador is a country of high seismic danger; therefore, the calculation of structures will always be a challenge for engineers since every day new advances in science and technology emerge, making it possible to predict the behavior of a building in extreme events such as earthquakes; in this work the Ceinci-Lab Computer System has been used, which allowed to perform analysis and design of structures step by step obtaining clear and accurate results. The objective of this research is to compare the seismic response between special moment frames and eccentrically braced frames in a 10-story steel building. A simple and regular structural configuration was used to obtain a better seismic performance of all the components of the system. Subsequently, the seismicresistant analysis of the frames was carried out with the different structural configurations proposed in the Ceinci-Lab computer program, using the linear modal spectral and static equivalent analysis for its resolution and complying with the guidelines established in the Ecuadorian construction standard and international codes; finally, it was determined that the building composed of eccentric diagonals had a better seismic response than the one composed of moment resisting frames, obtaining lower displacements and floor drifts; It was also verified that the demand versus capacity of each system is optimal, thus ensuring a strong column - weak beamxvii behavior; additionally, a nonlinear pushover analysis was performed to determine the real maximum resistance of the structure and the performance of all its components; therefore, it is essential to consider the use of bracing in the structural configuration of medium-rise buildings, especially with short link elements, since they act as energy dissipaters, improving the stiffness and global response of the system in severe earthquakes.