Bibliographic citations
Onofre, E., Velarde, A. (2023). Influencia del aumento de las características mecánicas del acero (Fy 420 MPa, 550 MPa y 690 MPa) y concreto (35 MPa) en el desempeño sísmico para edificaciones de 70 metros de alto mediante un análisis no lineal [Tesis, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/669088
Onofre, E., Velarde, A. Influencia del aumento de las características mecánicas del acero (Fy 420 MPa, 550 MPa y 690 MPa) y concreto (35 MPa) en el desempeño sísmico para edificaciones de 70 metros de alto mediante un análisis no lineal [Tesis]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2023. http://hdl.handle.net/10757/669088
@misc{renati/407755,
title = "Influencia del aumento de las características mecánicas del acero (Fy 420 MPa, 550 MPa y 690 MPa) y concreto (35 MPa) en el desempeño sísmico para edificaciones de 70 metros de alto mediante un análisis no lineal",
author = "Velarde Alvarez, Anthony Neal",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2023"
}
Due to the scarce local research in Peru that has not been carried out in depth in further studies of the reinforcement with greater resistance in building structures. Therefore, in this research project its main objective is the seismic performance of the structural system, which makes sense for this application since the Peruvian territory is a seismic place. Tavio et al., (2018) indicates that the use of steels greater than grade 60 which has certain positive points such as less use of reinforcement in the structure and due to this less amount of steel rod. Therefore, the structure will have slenderness and greater resistance, in addition, everything entails an economic cost compared to the traditional one. The Standard E.030 (2016) specifies the seismic-resistant design which the regulation mentions what structural components must meet with certain requirements for the ductility of the structural system with certain seismic commitment. Because of this, this does not have an advantage as high strength steels lose their ductility by increasing their tensile strength. In the present investigation, there is a 26-story framed building with a height of approximately 70 meters, made of reinforced concrete with a system of structural walls. In this building, it will be developed with a concrete reinforcement using grade 60, 80 and 100 steel. Subsequently, a non-linear static analysis of the events studied will be carried out, with which it will be determined how the behavior of the structural system is affected by modification in the performance technique. seismic. Finally, in many of the results achieved, it is feasible to use grade 80 steel in the reinforcement of the structural system of the building, which would recommend the continuation of future research for different Peruvian structures.
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