Miguel E. Tornello scite author profile

Historical buildings located in seismic regions have URM (unreinforced masonry) walls of considerable width as their main structure. In order to study the structural response of such type of masonry, it is necessary to know its mechanical and elastic characteristics. For such purpose, it is generally necessary to perform destructive and non-destructive tests. Other procedures, such as the study of masonry through numerical models, would make it possible to predict, with close approximation, the response of masonry to different actions. The purpose of this paper is to evaluate the behavior of URM walls subjected to axial and horizontal load by using a finite element model with the Abaqus code. Constitutive laws of materials, bricks and mortar are defined, using two constitutive models of plasticity and damage included in the materials library. The constitutive models used employ information of experimental tests performed on bricks and mortar. The results of an analysis for an URM wall subjected to axial and horizontal load are presented. Responses of walls were obtained in terms of load versus displacement for different constitutive models and for different qualities of bricks and mortar. The two constitutive models used show similar results, particularly in the response waveforms. However, the ultimate capacity values show mean variations of around 30%. The two constitutive models display high dependence upon the mechanical characteristics of bricks and mortar.

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Microzonificaciónsísmica basada en efectos de sitio para el área metropolitana de Mendoza

Giolo

Frau²,

Guillier³

et al. 2020

AJEA

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El ordenamiento territorial de una región debe contemplar distintos aspectos que hacen a las características del entorno y al hábitat humano inserto en ella. Algunos de los peligros potenciales asociados a la actividad sísmica son la licuación de suelos, deslizamiento de tierras, caída de rocas, efectos de sitio debido a terremotos, variaciones topográficas, tsunamis entre otros. En particular la respuesta de sitio puede ser evaluada por métodos teóricos o empíricos. Los métodos teóricos permiten un análisis más detallado de los diferentes estratos de suelo y los métodos empíricos se basan en el registro de vibraciones producidas por terremotos u otras causas en sitios de diferentes condiciones geológicas. Entre los métodos experimentales para considerar efectos locales, han tenido gran aceptación en las últimas décadas los basados en vibraciones ambientales. En el presente trabajo se escoge un área de gran densidad poblacional en la Ciudad de Mendoza, Argentina para realizar una microzonificación sísmica en base a frecuencias naturales de suelo que se obtienen mediante el procedimiento del cociente espectral H/V. De esta manera se pretende identificar las áreas expuestas al fenómeno de amplificación sísmica cuando sobrevenga un terremoto de mediana o elevada magnitud. Este estudio permitirá contar con información de utilidad para la organización del uso del suelo y la planificación urbana.

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Miguel E. Tornello

A simple and intuitive procedure to identify pulse-like ground motions

Base-isolated building with high-damping spring system subjected to near fault earthquakes

Structural Response of Unreinforced Masonry Walls

Microzonificaciónsísmica basada en efectos de sitio para el área metropolitana de Mendoza

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