Bibliographic citations
Aguirre, O., Bocanegra, A. (2019). Determinación del nivel de desempeño sísmico del Hospital de Alta Complejidad Virgen de la Puerta - La Esperanza pabellón B1, utilizando el análisis dinámico incremental [Tesis, Universidad Privada Antenor Orrego - UPAO]. https://hdl.handle.net/20.500.12759/5551
Aguirre, O., Bocanegra, A. Determinación del nivel de desempeño sísmico del Hospital de Alta Complejidad Virgen de la Puerta - La Esperanza pabellón B1, utilizando el análisis dinámico incremental [Tesis]. : Universidad Privada Antenor Orrego - UPAO; 2019. https://hdl.handle.net/20.500.12759/5551
@misc{renati/372292,
title = "Determinación del nivel de desempeño sísmico del Hospital de Alta Complejidad Virgen de la Puerta - La Esperanza pabellón B1, utilizando el análisis dinámico incremental",
author = "Bocanegra Rodríguez, Arturo Ricardo",
publisher = "Universidad Privada Antenor Orrego - UPAO",
year = "2019"
}
This research thesis evaluates the level of seismic performance of Hall B1 of the High Complexity Hospital “Virgen de la Puerta”, which was designed under the seismic-resistant normative guidelines of 2003, which over the years, has been It has been improving and implementing with new parameters that allow us to know our limitations when designing essential, important, common and temporary use infrastructures as described in the standard E - 030, 2018. As the present hospital is considered essential use; for its operability and functionality; It is located in an area of high seismic level and in the face of the possibility of occurrence of medium or large scale earthquake, it is necessary to know its performance, for which there are several tools such as Pushover, Step by Step Analysis, Incremental Dynamic Analysis, among others. It is necessary to analyze the building through an Incremental Dynamic Analysis, for being a structure of great importance. A performance analysis evaluates the building based on the properties of the structural elements through theoretical models of the behavior of materials such as Mander, Takeda and hysteretic models that have been obtained through tests, which enable more reliable results than a normative design. The IDA analysis considers the non-linearity of the materials (Concrete and Steel), and submits the structure to real seismic registers, these being scaled to different levels of soil accelerations (PGA); and then know if it has the levels of acceptance that govern the code of FEMA 356 for essential use infrastructures where it details that they must remain in immediate occupation. On the other hand, according to the seismic-resistant design philosophy, it expects that the structure does not exceed maximum drifts of 0.007, this value being very generic. It is estimated that the structural elements of the hospital building will satisfy the requirements of the Immediate Occupancy level when submitted to the maximum expected earthquake with a PGA of 0.675g for a return period Tr = 2475 years, guaranteeing its continuous functionality. Our evaluation is only for structural elements, although there will be few elements that present signage at some points causing medical teams to leave their position or lose precision, not allowing immediate occupation, although the structure is almost in range.
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