Seismic Response of Secondary Systems Supported by Torsionally Yielding Structures |
| |
Authors: | H. H. Mohammed T. S. Aziz |
| |
Affiliation: | 1. Department of Civil Engineering , McMaster University , Hamilton, Ontario, Canada;2. Atomic Energy of Canada Ltd , Sheridan Park, Ontario, Canada |
| |
Abstract: | Substantial damage sustained during several recent earthquakes was non structural in nature. The economic consequence in terms of non structural component damage far exceeded the structural damage. Currently, there are several analytical studies that address the interaction between non structural components or Secondary systems (S-systems) and the main supporting structure or Primary system (P-system). Only a few of these analytical approaches have been proposed to evaluate and characterize the response of the S-systems attached to torsionally coupled P-systems. In addition, the experimental verification for the analytical approaches is scarce. In the current study, the results and observations of an experimental research program conducted to characterize the behavior of both stiffness eccentric and mass eccentric torsionally coupled Primary-Secondary systems (PS-systems) are presented. From this experimental investigation it was found that the torsional yielding of the primary system has significant implications on the deamplification of near tuned secondary system response. The location of the S-system mounted on the P-system affects the peak response amplification, and interaction with the coupled P-system. |
| |
Keywords: | Shake Table Seismic Dynamic Secondary System Torsional Coupling Experimental |
|
|