Citas bibligráficas
Verastegui, L., (2020). Respuesta estructural de edificios de concreto armado con perfiles metálicos embebidos en nudos en Lima, Perú - 2020 [Tesis, Universidad Privada del Norte]. https://hdl.handle.net/11537/25033
Verastegui, L., Respuesta estructural de edificios de concreto armado con perfiles metálicos embebidos en nudos en Lima, Perú - 2020 [Tesis]. PE: Universidad Privada del Norte; 2020. https://hdl.handle.net/11537/25033
@misc{renati/511480,
title = "Respuesta estructural de edificios de concreto armado con perfiles metálicos embebidos en nudos en Lima, Perú - 2020",
author = "Verastegui Chuquilin, Luis Alfredo",
publisher = "Universidad Privada del Norte",
year = "2020"
}
The present research aimed to determine the structural response of reinforced concrete buildings with metal profiles embedded in nodes in Lima-Peru. For the development of the thesis, we worked with a 14-story reinforced concrete building and 2 basements of which 4 models were created in the ETABS program. The first model (standard model) was made without metal profiles. The other 3 remaining models were reinforced with H metal profile, square tubular and rectangle tubular. A static and dynamic modal spectral analysis was applied to these models to generate results. The results were divided into global and local parameters to determine the structural response of the building. From the global and local parameters, the best results are from the model with metal profile H where, in relation to its fundamental period, it decreased by X 1.41% and in Y 3%, its shear force increased by X 2.27% and in Y 4.1%, its Mezzanine accelerations maintained their value with little variation, their interfloor distortions decreased by X 1.86% and Y 3.54%, their shear stresses, bending in traction, bending in compression, axial, increased their value by 4.36%, 10.24%, 9.08% and 4.25% respectively. As a conclusion to the results already described, it was determined that the structural response of the reinforced concrete building with metal profiles embedded in nodes improves at a global and local level. In addition, the most suitable reinforcement is that of the metal profile H since in relation to each of the evaluated parameters, better results were obtained.
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