Bibliographic citations
Martinez, V., Verástegui, J. (2023). Diseño estructural del edificio multifamiliar residencial alayo de 9 niveles empleando aisladores de energía (lead rubber bearing) [Tesis, Universidad Privada Antenor Orrego]. https://hdl.handle.net/20.500.12759/11133
Martinez, V., Verástegui, J. Diseño estructural del edificio multifamiliar residencial alayo de 9 niveles empleando aisladores de energía (lead rubber bearing) [Tesis]. PE: Universidad Privada Antenor Orrego; 2023. https://hdl.handle.net/20.500.12759/11133
@misc{renati/372055,
title = "Diseño estructural del edificio multifamiliar residencial alayo de 9 niveles empleando aisladores de energía (lead rubber bearing)",
author = "Verástegui Hernández, José Luis",
publisher = "Universidad Privada Antenor Orrego",
year = "2023"
}
The purpose of this thesis was to structurally analyze and design a nine-story reinforced concrete building with elastomeric LRB base isolators located in Trujillo. The land on which it will be built is rectangular with a net area of 258.75m2, a roofed area of 234.50m2 per level, and is located on an S2 type soil with a bearing capacity of Qadm = 1 kg/cm2. The architectural design of the project includes a first floor for parking, with a guardhouse, stairs, and elevator, and the following eight levels are typical floors intended for apartments, one per floor. The distribution of structural elements was carried out respecting the architecture and use of the building, with the aim of achieving adequate stiffness in both directions and avoiding torsion problems. For the pre-dimensioning of the structural elements, such as: slabs, beams, columns, stairs, foundations, and reinforced concrete walls; the criteria and recommendations of the bibliographic references mentioned in the thesis were followed. The structure was then modeled in the ETABS program to perform a modal-spectral analysis and understand the response and behavior of the structure under stresses produced during an earthquake. The design loads were obtained through a gravity load system (dead loads and live loads) following the E.020 LOADS standard, and seismic forces were applied according to the recommendations of the E.030 SEISMIC DESIGN standard, while the E.031 ISOLATION standard stipulates the design of base isolators. After performing the seismic analysis and verifying compliance with requirements, the design of structural elements proceeded according to the provisions of the E.060 REINFORCED CONCRETE standard.
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