Abstract
The reports after major earthquakes indicate that the earthquake-induced pounding between insufficiently separated buildings may lead to significant damage or even total collapse of structures. An intensive study has recently been carried out on mitigation of pounding hazards so as to minimize the structural damages or prevent collisions at all. The aim of this paper is to investigate the effectiveness of the method when two adjacent three-storey buildings with different (substantially different) dynamic properties are connected at each storey level by link elements (springs, dashpots or viscoelastic elements). The results of the study indicate that connecting the structures by additional link elements can be very beneficial for the lighter and more flexible building. The largest decrease in the response of the structure has been obtained for links with large stiffness or damping values, which stands for the case when two buildings are fully connected and vibrate in-phase. Moreover, by comparing the effectiveness of different types of link elements, it has been confirmed that the use of viscoelastic elements reduces the peak displacement of the structure at lower stiffness and damping values comparing to the case when spring and dashpot elements are applied alone. On the other hand, the results of the study demonstrate that applying the additional link elements does not really change the response of the heavier and stiffer building. The final conclusion of the study indicates that linking two buildings allows us to reduce the in-between gap size substantially while structural pounding can be still prevented.
Highlights
It has been observed during earthquakes that adjacent buildings might come into contact if the separation distance between them is not sufficient so as to accommodate their relative movements
The aim of this paper is to investigate the effectiveness of the method when two adjacent three-storey buildings with different dynamic properties are connected at each storey level by link elements
The results of the study clearly indicate that connecting the structures by additional link elements can be very beneficial for the left building, for which its behaviour can be substantially improved
Summary
It has been observed during earthquakes that adjacent buildings might come into contact if the separation distance between them is not sufficient so as to accommodate their relative movements. There are many examples of old buildings, which have been constructed nearly in contact with each other (see Jeng and Tzeng 2000; Wasti and Ozcebe 2003), as it was not prohibited according to the old earthquake-resistant design codes Another approach to mitigate pounding effects under seismic excitations is to consider some pounding reduction methods in order to enhance the performance of structures without sufficient in-between gap size. The aim of the present paper is to investigate the effects of connecting two adjacent equal height three-storey buildings with different (substantially different) dynamic properties by link elements, as a strategy for mitigation of earthquake-induced pounding between insufficiently separated structures. The effectiveness of link elements has been tested for different values of spring stiffness and dashpot damping and the optimum values required to obtain the largest reduction in the structural response have been analyzed
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