Bibliographic citations
Aguirre, S., Vidal, E. (2022). Propuesta de diseño de dos hospitales, en zona sísmica tres y cuatro, usando disipadores SLB en el Perú; como alternativa a los aisladores sísmicos exigidos por la NTP E.030 [Tesis, Universidad Peruana de Ciencias Aplicadas (UPC)]. http://hdl.handle.net/10757/659464
Aguirre, S., Vidal, E. Propuesta de diseño de dos hospitales, en zona sísmica tres y cuatro, usando disipadores SLB en el Perú; como alternativa a los aisladores sísmicos exigidos por la NTP E.030 [Tesis]. PE: Universidad Peruana de Ciencias Aplicadas (UPC); 2022. http://hdl.handle.net/10757/659464
@misc{renati/398923,
title = "Propuesta de diseño de dos hospitales, en zona sísmica tres y cuatro, usando disipadores SLB en el Perú; como alternativa a los aisladores sísmicos exigidos por la NTP E.030",
author = "Vidal Barazorda, Elio Andre",
publisher = "Universidad Peruana de Ciencias Aplicadas (UPC)",
year = "2022"
}
The present thesis consists of proposing a high-tech anti-seismic control alternative for the construction of hospitals in Peru, which in its regulations requires the use of base insulation for essential buildings. For this, the structural evaluation is chosen with the SLB (Shear Link Bozzo) energy dissipation system of Peruvian technology in two hospitals with soil type S1 and S2 located in seismic zones 4 and 3 respectively, which are projects already built with base insulation system. The development of the project has been carried out mainly using the national regulations NTP E.030 and NTP E.031, following guidelines and recommendations proposed in international codes such as ASCE 7-14, FEMA P58, ASCE 41-17. The study compares the seismic responses of both methodologies obtained from a non-linear time-history analysis using 7 pairs of seismic records for each hospital according to the soil conditions that comprise it, obtaining drifts, floor accelerations, hysterical curves, balance of energy and formation of plastic hinges; all this to evaluate the condition of continuous functionality, necessary in hospital structures. Additionally, the approximate initial costs of these projects with both anti-seismic control technologies are determined. Based on the results, it is concluded that the SLB heatsinks effectively constitute one more option to be able to implement in the design of hospitals, achieving lower initial costs, approximately 50% of the amount obtained with the isolators. However, your choice must be subject to the correct structural analysis and damage evaluation in the project to be carried out, making a balance between each of the advantages and disadvantages that are presented in this thesis for both techniques, adapting it to the requirements and objectives. desired.
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