Evaluation of a passive gap damper to control displacements in a shaking test of a seismically isolated three‐story frame |
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| Authors: | Hamed Zargar Keri L Ryan Taylor A Rawlinson Justin D Marshall |
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| Affiliation: | 1. New Millenium Building Systems, Fallon, NV, USA;2. Civil and Environmental Engineering, University of Nevada, Reno, Reno, NV, USA;3. AECOM, Denver, CO, USA;4. Civil Engineering Department, Auburn University, Auburn, AL, USA |
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| Abstract: | Recent studies have indicated uncertainty about the performance limit states of seismically isolated buildings in very large earthquakes, especially if the isolator displacement demands exceed the seismic gap and induce pounding. Previous research has shown the benefit of providing phased supplemental damping that does not affect the isolation system response in a design event. A phased passive control device, or gap damper, was designed, fabricated, and experimentally evaluated during shake table testing of a quarter scale base‐isolated three‐story steel frame building. Identical input motions were applied to system configurations without a gap damper and with a gap damper, to directly assess the influence of the gap damper on displacement and acceleration demands. The gap damper was observed to reduce displacement demands by up to 15% relative to the isolated system without the gap damper. Superstructure floor accelerations increased substantially because of damper activation, but were limited to a peak of about 1.18 g. The gap damper reduces displacement most effectively if the ground motion contains one or more of the following characteristics: the spectral displacement increases with increasing period near the effective period of the isolation system, the motion is dominated by a single large pulse rather than multiple cycles at a consistent intensity, and the motion has a dominant component aligned with a major axis of the structure. Copyright © 2016 John Wiley & Sons, Ltd. |
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| Keywords: | base isolation MCE event passive control seismic pounding shake table testing viscous damping |
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