Análisis comparativo de la respuesta sísmica de una clínica con aislamiento sísmico en Lima bajo las normas NCh 2745 y ASCE SEI 7 con la norma peruana E031

Rosales Villanueva, Aldair Santos, Sandivar Ramirez, Jessica Jhovanna

06 December 2021

El presente estudio de investigación evalúa la respuesta sísmica de una clínica con aislamiento símico en Lima bajo la Norma Peruana de Aislamiento Sísmico E.031. Esta será comparada con la norma la Norma Chilena de Diseño Sísmico de Edificios NCh2745 y la Norma Americana ASCE/SEI 7, dichas normas internacionales han sido diseñadas para soportar eventos sísmicos severos, presentando parámetros rigurosos, con los cuales se podrá destacar las fortalezas y debilidades frente a la nueva Norma Peruana. En los capítulos siguientes se da entendimiento a la información que se debe poseer para analizar las tres normas, conceptos básicos de sismología y dinámica estructural, dentro de cada norma se verán los alcances, factores y parámetros que intervienen en la determinación del espectro de diseño, así como el análisis sísmico dinámico que las normas proponen y el modelamiento de la estructura de la clínica en el software ETABS. Luego se comparan los resultados de la respuesta sísmica, desplazamientos laterales, derivas y fuerzas cortantes, en las que se verán las exigencias que cada norma, llegando a saber si nuestra Norma Peruana en su modificación y mejora de su contenido se proyecta a ser una de las mejores normas de diseño sismorresistente, obteniendo así una perspectiva de nuestra Norma Peruana frente a una norma internacional ya consolidada y avalada por los años frente a sismos severos. / This research study evaluates the seismic response of a clinic with simian isolation in Lima under the draft Peruvian Seismic Isolation Standard E.031. This will be compared with the North American standard ASCE SEI 7-16 and the Chilean Seismic Design Standard for Buildings 2745, these international standards have been designed to withstand severe seismic events, presenting rigorous parameters, with which we can highlight the strengths and weaknesses against the new Peruvian Standard. In the following chapters, understanding is given to the information that must be possessed to analyze the three norms, basic concepts of seismology and structural dynamics, within each norm the scope, factors and parameters that are involved in the determination of the design spectrum will be seen, as well as the dynamic seismic analysis that the standards propose and the modeling of the clinical structure in the ETABS software. Then the results of the seismic response, lateral displacements, drifts and shear forces are compared, in which the requirements of each norm will be seen, getting to know if our Peruvian Standard in its modification and improvement of its content is projected to be one of the best seismic resistant design standards, thus obtaining a perspective of our Peruvian Standard against an international standard already consolidated and endorsed by the years against severe earthquakes. / Tesis

Respuesta sísmica

Aislamiento sísmico

Diseño sismorresistente

Análisis sísmico dinámico

Seismic response

Seismic isolation

Earthquake resistant design

Dynamic seismic analysis

鋼製橋脚ー地盤系の地震応答解析における減衰マトリクスに関する一考察

葛西, 昭, Kasai, Akira, 宇佐美, 勉, Usami, Tsutomu, 能登, 晋也, Noto, Shinya

03 1900

No description available.

steel bridge pier

鋼製橋脚

seismic response analysis

弾塑性地震応答解析

damping matrix

地盤と構造物の動的相互作用

減衰マトリクス

mult-span continuous bridges

多径間連続橋

soil-structure interaction

鋼製橋脚ー基礎ー地盤連成系の大地震時挙動

Usami, Tsutomu, 葛西, 昭, Kasai, Akira, 河村, 康文, Kawamura, Yasufumi, 宇佐美, 勉

03 1900

No description available.

steel bridge pier

鋼製橋脚

soil-structure interaction

構造物と地盤の動的相互作用

equivalent linearization method

等価線形化手法

elastoplastic seismic response analysis

弾塑性地震応答解析

Interakce konstrukce ocelové nádrže a kapaliny při seizmické události / Interaction of steel tank structure with liquid during seismic event

Plášil, Pavel

January 2013

Construction of structural computational model of the tank with fluid using program package ANSYS based on the Finite Element Method. Solve eigen-vibration of the tank with or without effects of fluid. Application of Euler and Lagrange method for modeling fluid. Solve seismic response using response spectra. Verify of the tank in accordance to EC 3 and EC8.

Vliv technické a přírodní seizmicity na stavební konstrukce se zaměřením na konstrukce ze zdicích materiálů / Influence of technical and natural seismicity on building structures with focus on structures of masonry materials

Čada, Zdeněk

January 2014

The dissertation deals with selected issues in the field of the calculation of the response of building structures which are excited with dynamic non-stationary displacement loading of its ground. Seismic load has been assumed. Procedures, how to work with seismic records with respect to the accuracy of dynamic calculations, how to modify the response spectrum to ensure the reliability, how to generate synthetic accelerogram requiring more accurate response, are recommended. Synthetic akcelerogram has been generated by own approaching, which has been used as the excitation function in the experimental seismic testing of autoclaved concrete brick building in model scale. Response values of motion in the measured points of the experiment were compared with the linear and nonlinear dynamic calculations by using the finite element method models. Different levels of detail of the numerical models have been used. The shear wall behaviour has been modelled by using constitutive models with brittle failure as well as using of non-linear interaction interface with possible delamination between the masonry bricks. The behaviour of the mathematical model of wall systems has been calibrated with respect to the measured data at shear wall experiments in real and model scale of walls.