Citas bibligráficas
Rosales, M., Ticona, A. (2021). Identificación de los efectos de interacción suelo-estructura en un edificio de concreto armado con zapatas aisladas e irregularidad de rigidez – piso blando en perfiles de suelos S2 y S3 de Lima [Tesis, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/655326
Rosales, M., Ticona, A. Identificación de los efectos de interacción suelo-estructura en un edificio de concreto armado con zapatas aisladas e irregularidad de rigidez – piso blando en perfiles de suelos S2 y S3 de Lima [Tesis]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2021. http://hdl.handle.net/10757/655326
@misc{renati/394549,
title = "Identificación de los efectos de interacción suelo-estructura en un edificio de concreto armado con zapatas aisladas e irregularidad de rigidez – piso blando en perfiles de suelos S2 y S3 de Lima",
author = "Ticona Mamani, Alfonso Mariano",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2021"
}
The current conventional analysis performed for the modeling of a structure is based on fixing the supports at the base of the structure. This idealization does not reflect the real behavior of the soil where it is sown. Since this, depending on its geotechnical parameters, provides a certain stiffness that is related to an elastic-plastic behavior. The effects on the responses of a structural system were analyzed, considering soil structure interaction, varying the geotechnical parameters, the height of the building and the ISE models which were the proposed academic model A.E. Sargsyan, the model proposed by D. D. Barkan and O.A. Savinov and the Russian Standard SNIP 2.02.05-87. The types of soils used for development were silty sand (SM-S2) and poorly graded sand (SP-S3). The answers obtained were compared with a conventional analysis embedded in the base, with this, the variations of 3 main responses were determined: the period, effort and drifts. It is determined that the estimated range in which the period increases the structure is from 21% to 41% and the drifts between 23% and 58%, demonstrating the change in behavior of the structure when considering the stiffness of the soil.
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