FRM - I+D+i - Revista
Permanent URI for this collectionhttp://48.217.138.120/handle/20.500.12272/9726
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Item Potential destructive power of earthquakes in the northern region of the Province of Mendoza, Argentina(2019-01-01) Panella, Germán; Frau, Carlos; Tornello, MiguelThe Center - North of the Mendoza province, Argentina, is considered of high seismic risk. However, the earthquakes of magnitude greater than 7 degrees are infrequent. So, cataloguing the area in this way does not depend only on the magnitude. There are other characteristics that influence: the depth of the hypocenter, the duration of the principal phase, the proximity of the buildings to the geological faults, the type of ground and its possible liquefaction, are some of them. The destructive earthquake of 1861, reported by people who lived it, confirm what has been said. The magnitude Richter depends mostly on the maximum amplitude of a seismic wave and of the time difference that exists in arriving the wave "S" with respect to the wave "P". This magnitude is correlated directly with the energy released by the earthquake. The released energy is dissipated in various ways; the most quantity of this energy is dissipated in the environment of the focus and in the travel of the waves, always depending on the geological characteristics of the substrates through which they move. The type of destructive earthquake that is expected is of the impulsive type and short duration, unlike those that are of the harmonic type. The result of the work is the tracing of attenuation curves of the released energy of an earthquake upon reaching the earth's surface. The chosen parameters are those that allow determining the Potential Destructive Power of earthquakes of the impulsive type and of short duration.Item A simple and intuitive procedure to identify pulse-like ground motions(2020-01-01) Frau, Carlos; Tornello, Miguel; Panella, DanteLos movimientos sísmicos cercanos a fallas se caracterizan frecuentemente por intensos pulsos de velocidad y desplazamiento de períodos relativamente largos que los distinguen claramente de los movimientos de suelo típicos de campo lejano. Los movimientos con grandes pulsos de velocidad pueden afectar negativamente el desempeño sísmico de las estructuras. Para comprender la influencia de los movimientos cercanos a fallas en la respuesta estructural, se han desarrollado diversos estudios para identificar registros sísmicos impulsivos. El presente artículo revisa brevemente estos estudios y presenta un nuevo procedimiento simple y eficiente para identificar acelerogramas tipo pulso; el procedimiento se basa en un nuevo parámetro llamado "longitud desarrollada de la historia de tiempo de velocidad”. El procedimiento se aplica a una serie representativa de registros, los resultados muestran una buena eficiencia para identificar registros sísmicos impulsivos, de fácil reproducción y con muy bajo costo computacional; permite también una clasificación de registros sísmicos impulsivos según diferentes rangos.