Effect of viscous damping devices on the response of seismically isolated structures |
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Authors: | E. D. Wolff C. Ipek M. C. Constantinou M. Tapan |
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Affiliation: | 1. Fyfe Co, San Diego, CA, USA;2. Univ. at Buffalo, SUNY, Buffalo, NY, USA;3. Istanbul Technical University, Faculty of Civil Engineering, Department of Civil Engineering, Istanbul, Turkey;4. Department of Civil, Structural and Environmental Engineering, Univ. at Buffalo, SUNY, Buffalo, NY, USA;5. Risk Management and Earthquake Research and Application Center, Yuzuncu Yil University, Van, Turkey |
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Abstract: | Viscous and other damping devices are often used as elements of seismic isolation systems. Despite the widespread application of nonlinear viscous systems particularly in Japan (with fewer applications in the USA and Taiwan), the application of viscous damping devices in isolation systems in the USA progressed intentionally toward the use of supplementary linear viscous devices due to the advantages offered by these devices. This paper presents experimental results on the behavior of seismically isolated structures with low damping elastomeric (LDE) and single friction pendulum (SFP) bearings with and without linear and nonlinear viscous dampers. The isolation systems are tested within a six‐story structure configured as moment frame and then again as braced frame. Emphasis is placed both on the acquisition of data related to the structural system (drifts, story shear forces, and isolator displacements) and on non‐structural systems (floor accelerations, floor spectral accelerations, and floor velocities). Moreover, the accuracy of analytical prediction of response is investigated based on the results of a total of 227 experiments, using 14 historic ground motions of far‐fault and near‐fault characteristics, on flexible moment frame and stiff braced frame structures isolated with LDE or SFP bearings and linear or nonlinear viscous dampers. It is concluded that when damping is needed to reduce displacement demands in the isolation system, linear viscous damping results in the least detrimental effect on the isolated structure. Moreover, the study concludes that the analytical prediction of peak floor accelerations and floor response spectra may contain errors that need to be considered when designing secondary systems. Copyright © 2014 John Wiley & Sons, Ltd. |
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Keywords: | seismic isolation viscous damping secondary systems shake table testing response history analysis |
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