Bibliographic citations
Boza, A., Salcedo, M. (2023). Diseño estructural para una edificación con problemas de piso blando por alta densidad de muros mediante sistema aporticado en el eje y-y y sistema de albañileria confinada en el eje x-x [Trabajo de Suficiencia Profesional, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/670247
Boza, A., Salcedo, M. Diseño estructural para una edificación con problemas de piso blando por alta densidad de muros mediante sistema aporticado en el eje y-y y sistema de albañileria confinada en el eje x-x [Trabajo de Suficiencia Profesional]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2023. http://hdl.handle.net/10757/670247
@misc{renati/409678,
title = "Diseño estructural para una edificación con problemas de piso blando por alta densidad de muros mediante sistema aporticado en el eje y-y y sistema de albañileria confinada en el eje x-x",
author = "Salcedo Rodriguez, Michael Steve",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2023"
}
Currently, buildings in our country have many structural design deficiencies and it is a latent problem for seismic events that occur in our country. This research focuses on the analysis of a building in the district of Challhuahuacho, department of Apurímac, which presents the architectural peculiarity of taking advantage of the first level as garages, restaurants or some other environment that lacks walls, the upper floors are used for multi-family homes with wall distribution, so this generates a high density of walls. Firstly, a structural analysis is carried out for the construction of the initial model, the results show that it has soft floor irregularity due to a high density of walls due to excessive lateral rigidity. According to what has been investigated, there are antecedents of the collapse of buildings with soft floors due to seismic events that occurred in Mexico, which shows the problem of this irregularity of soft floors in buildings. Therefore, this research aims to carry out a structural design of a proposed model, which has been generated from the initial model with the purpose of carrying out its structural design using the confined and porticoed masonry system. The results show that it does not present irregularities of soft floor improving its structural behavior. Secondly, a comparative analysis was carried out between both designs to contrast their irregularities, displacements, drifts; and also the analysis of cracking and cracking of walls for the confined masonry system. Finally, the aim is to propose the structural design of the proposed model that meets the requirements of Peruvian regulations, this through structural plans and details of masonry walls.
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