Citas bibligráficas
Guerrero, V., Vega, D. (2024). Diseño sismico de un establecimiento de salud COVID-19 con aisladores sísmicos LRB basado en la norma E.031, en la ciudad de Trujillo, 2023 [Tesis, Universidad Privada del Norte]. https://hdl.handle.net/11537/36778
Guerrero, V., Vega, D. Diseño sismico de un establecimiento de salud COVID-19 con aisladores sísmicos LRB basado en la norma E.031, en la ciudad de Trujillo, 2023 [Tesis]. PE: Universidad Privada del Norte; 2024. https://hdl.handle.net/11537/36778
@misc{renati/512519,
title = "Diseño sismico de un establecimiento de salud COVID-19 con aisladores sísmicos LRB basado en la norma E.031, en la ciudad de Trujillo, 2023",
author = "Vega Castillo, Dagner Andree Marcell",
publisher = "Universidad Privada del Norte",
year = "2024"
}
This research was carried out in the city of Trujillo, the seismic design of a health facility with LRB seismic isolators based on the E.031 standard was determined, a non-experimental, cross-sectional design was used for the thesis, the sampling was non-probabilistic by expert judgment, data collection was performed with the documentary analysis technique, the instrument used was a data matrix and summary sheets, descriptive statistics was used to analyze the data. The main problem is that in Peru seismic stresses are high, causing severe damage to buildings, especially in hospitals, which concentrate a large number of people and the loss of equipment due to an earthquake is very costly. It was determined that the use of seismic isolators in a health facility increases the damping percentage, reduces interstory distortions, internal forces and consequently optimizes the structural design. The LRB isolators were designed with a total diameter of 70 centimeters, a height of 50 centimeters and a lead core of 12 centimeters in diameter. A time-history analysis was carried out with 7 log pairs, thus obtaining the separation joint and the maximum forces. The behavior of the foundation was verified by means of a slab, obtaining a maximum stress of 1.58 Kg/cm2 for service load.
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