Abstract
During earthquakes, out-of-phase vibrations in adjacent buildings with limited distance may cause pounding between them. In recent years, the use of seismic isolation has expanded considerably as an effective approach to reduce seismic damage. However, the isolated building experiences large displacements during earthquakes, and there is a possibility of collisions with adjacent structures. The research on earthquake-induced pounding of base-isolated buildings has been mainly focused on interactions between low structures. In this paper, the influence of structural pounding on the response of medium-to-high-rise base-isolated buildings is investigated under different ground motions. The analysis has been focused on collisions between two insufficiently separated five-story and eight-story base-isolated and fixed base buildings aligned in three different configurations. The results of the study indicate that structural pounding may significantly increase the response of medium-to-high-rise base-isolated buildings during earthquakes. Moreover, substantial dependence of the structural behavior on the gap size between structures has been observed. The general trend shows the reduction in the pounding-involved response with the increase in the gap size value. The results indicate that the increase in the response of the base-isolated building is larger when the height of the structure is bigger. They also show that larger amplifications of peak accelerations of the upper stories can be expected due to collisions. On the other hand, the amplifications of the story shears have not shown any specific trend for different stories of the analyzed base-isolated building.
Highlights
Earthquakes may cause pounding between adjacent buildings having limited gap and different dynamic properties [1,2,3,4]
The influence of earthquake-induced structural pounding on the response of medium-to-high-rise
The influence of earthquake-induced structural pounding on the response of between two insufficiently separated five-story and eight-story base-isolated and fixed base buildings medium-to-high-rise base-isolated buildings has been investigated in this paper
Summary
Earthquakes may cause pounding between adjacent buildings having limited gap and different dynamic properties [1,2,3,4]. Considering the practical restrictions to the size of the seismic gap, the possibility of pounding of a seismically isolated building with adjacent structures during ground motions should be considered The example of such a situation concerns the case of the Fire Command and Control base-isolated building that had been pounded with adjacent structures during the Northridge earthquake, causing the increase in the peak acceleration from 0.22 to 0.35 g (see [26]). The above literature indicates that the research on earthquake-induced of and Komodromos [35] Thereview results of these studies show that pounding may considerablypounding change the base-isolated buildings hasstructure. Be expected that collisions between is to investigate the influence of pounding on the responseitofcan medium-to-high-rise structures under such buildings can be very According dangerous.to the authors’ knowledge, such investigation has not been different earthquake excitations.
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