Bibliographic citations
Perez, P., (2021). Influencia del período fundamental de vibración en las estructuras de mortero armado de la I.E.P.S.M. N° 60544 - Elías Aguirre Romero en el centro poblado San Joaquín de Omaguas, distrito de Nauta, Loreto - Loreto 2021. [Tesis, Universidad Científica del Perú]. http://hdl.handle.net/20.500.14503/1657
Perez, P., Influencia del período fundamental de vibración en las estructuras de mortero armado de la I.E.P.S.M. N° 60544 - Elías Aguirre Romero en el centro poblado San Joaquín de Omaguas, distrito de Nauta, Loreto - Loreto 2021. [Tesis]. PE: Universidad Científica del Perú; 2021. http://hdl.handle.net/20.500.14503/1657
@misc{renati/193576,
title = "Influencia del período fundamental de vibración en las estructuras de mortero armado de la I.E.P.S.M. N° 60544 - Elías Aguirre Romero en el centro poblado San Joaquín de Omaguas, distrito de Nauta, Loreto - Loreto 2021.",
author = "Perez Pezo, Priscila Kimberli",
publisher = "Universidad Científica del Perú",
year = "2021"
}
The present research work analyzed the influence of the fundamental period of vibration in the reinforced mortar structures of the I.E.P.S.M. N ° 60544 ELIAS AGUIRRE ROMERO located in the C. P. de San Joaquín de Omaguas in the district of Nauta. The analysis was mainly focused on the calculation of the fundamental periods of vibration as a function of the modes of vibration using the Rayleigh method and the provisions of Technical Standard E030 Seismicresistant Design. The first analysis carried out was the static analysis and the spectral modal dynamic analysis, which was applied using the software ETABS 2019, in addition, the fundamental period of vibration established in the Technical Standard E030 Seismic-resistant Design of the year 2019 was determined. The second analysis focused on the calculation of the fundamental period of vibration using the Rayleigh method based on characteristic equations that define modes of vibration (relative displacements) and periods that govern based on the law of conservation of energy. The results obtained were the following: Fundamental period of vibration according to Standard E030: value of 0.2000 sec. Fundamental period of vibration Rayleigh method: value of 0.2069 sec. I present a variation of 3.34% with respect to what was calculated by the described Standard.
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