Bibliographic citations
Moscoso, E., (2018). Efecto de la bidireccionalidad y ángulo de incidencia del sismo en la respuesta de estructuras de concreto armado [Tesis, Universidad Nacional de Ingeniería]. http://hdl.handle.net/20.500.14076/16380
Moscoso, E., Efecto de la bidireccionalidad y ángulo de incidencia del sismo en la respuesta de estructuras de concreto armado [Tesis]. : Universidad Nacional de Ingeniería; 2018. http://hdl.handle.net/20.500.14076/16380
@mastersthesis{renati/709700,
title = "Efecto de la bidireccionalidad y ángulo de incidencia del sismo en la respuesta de estructuras de concreto armado",
author = "Moscoso Alcantara, Edisson Alberto",
publisher = "Universidad Nacional de Ingeniería",
year = "2018"
}
Currently, it is considered that seismic actions act independently in two or three main directions orthogonal to each other, applying them to the building in accordance with its geometry in the plant, without this being necessarily valid. It is for this, that the seismic analysis of buildings should consider the bidirectional effects that the seismic actions have in plant, being possible if it is considered a real angle of incidence of each seismic action, in order to estimate the maximum effect of structural elements and the maximum response of the structure. The standard E.030 “Earthquake Resistant Design“, does not present a methodology that considers the effects that occur in the structural elements and the global structure when considering the bidirectionality and the angles of incidence of the earthquake, only indicates that for irregular structures it should be assumed that the seismic action occurs in the direction that is most unfavorable for the design of each element. The effect of bidirectionality and the angle of incidence of the earthquake on the response of reinforced concrete structures was analyzed, using the linear Time-History analysis of 11 structures with different relative rigidities and eccentricities in both directions using angles of incidence every 10°, thus, 20 Peruvian seismic records were used between very rigid, intermediate and soft soils obtained from the national network of accelerographs of CISMID and the IGP. Later, a non-linear Time-History analysis was carried out, which was applied to one of the 11 structures and using angles of incidence every 10° with a single seismic record. The maximum responses of these were compared with the maximum response of the spectral modal analysis where linear rules for amplification factors were obtained, considering the effect of bidirectionality and the angle of incidence. Finally, a methodology was obtained for spectral modal analysis and time history analysis considering the effects of bidirectionality and the angle of incidence in reinforced concrete structures, this being a proposal for Peruvian standard E.030. This methodology was verified in a real structure, comparing it with a linear Time-History analysis and angles of incidence every 10°, for the 20 seismic records initially considered.
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