Bibliographic citations
Reyes, J., Trigueros, J. (2022). Análisis comparativo del aislador sísmico goma de alto amortiguamiento y el aislador sísmico triple péndulo de fricción para la implementación en la estructura del Hospital Vitarte, Lima 2020 [Tesis, Universidad Privada del Norte]. https://hdl.handle.net/11537/30267
Reyes, J., Trigueros, J. Análisis comparativo del aislador sísmico goma de alto amortiguamiento y el aislador sísmico triple péndulo de fricción para la implementación en la estructura del Hospital Vitarte, Lima 2020 [Tesis]. PE: Universidad Privada del Norte; 2022. https://hdl.handle.net/11537/30267
@misc{renati/518764,
title = "Análisis comparativo del aislador sísmico goma de alto amortiguamiento y el aislador sísmico triple péndulo de fricción para la implementación en la estructura del Hospital Vitarte, Lima 2020",
author = "Trigueros Maguiña, José Miguel",
publisher = "Universidad Privada del Norte",
year = "2022"
}
The main objective of the research is to determine the seismic behavior of the Vitarte Hospital by incorporating two types of insulators: High Damping Rubber (HDR) and Triple Friction Pendulum (TPF), which has six blocks, However, the most substantial block was determined: Block C with five levels, by which a non-probabilistic sampling was selected, which belongs to category A (essential buildings) of standard E.0.30 (seismic design). The modeling was carried out with the ETABS software version 2018, taking into account the resistance requirements of standard E.060 (reinforced concrete). Seismic isolation of any kind is a technology that consists of placing flexible devices at the base of the building so that they dissipate all energy generated by an earthquake in the ground causing the structure to not suffer major damage. The building with HDR has a displacement in the structure in the direction “X“ of 0.00518072 m. and in “Y“ a 0.00043944 m. the forces in the bases and the building with TPF has a displacement in the structure in the direction “X“ of 0.007777 m. and in “Y“ a 0.001631 m. the forces at the bases.
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