Bibliographic citations
Talavera, A., (2024). Evaluación del desempeño sísmico de la subestructura de un puente continuo de 3 tramos, empleando aisladores elastoméricos y de péndulo de fricción triple [Pontificia Universidad Católica del Perú]. http://hdl.handle.net/20.500.12404/28819
Talavera, A., Evaluación del desempeño sísmico de la subestructura de un puente continuo de 3 tramos, empleando aisladores elastoméricos y de péndulo de fricción triple []. PE: Pontificia Universidad Católica del Perú; 2024. http://hdl.handle.net/20.500.12404/28819
@mastersthesis{renati/533740,
title = "Evaluación del desempeño sísmico de la subestructura de un puente continuo de 3 tramos, empleando aisladores elastoméricos y de péndulo de fricción triple",
author = "Talavera Gómez, Alvaro Enrique",
publisher = "Pontificia Universidad Católica del Perú",
year = "2024"
}
This research is referred to the importance of the correct choice of seismic protection systems in bridges based on seismic isolation, taking as a study model the existing Freyre bridge, located at Km. 045+000 of the PE – 1S D Highway: Los Cerillos – Islay – Mollendo – Ilo – El Pozo Section, in Punta de Bombón, Islay, Arequipa, which was designed in a conventional way, without considering the use of seismic protection systems. This bridge consists of three straight post-tensioned sections of 121.8m in total, composed of two design lanes and two berms on each side of the deck; the deck is composed of posttensioned prefabricated girders, the deck being a solid slab of reinforced concrete. The bridge, being located on a main road adjacent to the Panamericana sur Highway, is classified for design purposes as an essential structure according to the Peruvian Bridge Manual. (MTC, 2018). The main purpose of this research was to evaluate the structural, qualitative and quantitative advantages and disadvantages of the seismic performance of a bridge, obtained after its seismic protection, using two types of isolators bearings, elastomeric with lead core (LRB) and friction triple pendulum (FTP). For this purpose, three case studies were established: a) the bridge without Seismic protection, b) the bridge considering the inclusion of a seismic isolation system based on elastomeric isolators with LRB lead cores, and c) the bridge considering the use of friction triple pendulum isolators (FTP). For each case, spectral modal seismic and nonlinear time history analyses were performed, obtaining displacements, bending moments, shear forces, lateral restitution forces, fundamental vibration periods and damping. In the chapter called comparative analysis of results, the results from each case study are summarized and compared graphically. Finally, in the chapter called conclusions and recommendations, the findings resulting from this research are summarized.
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