Paper 12488-17
Paper 12488-17
Promoting local resonances in waveguide structures using the electromechanical impedance method
On demand | Presented live 13 March 2023 
Abstract
Local resonances, formed by zero-group velocity (ZGV) and cutoff frequency points, have been extensively studied using impulse-based approaches, such as pulse laser and impact echo. In this work, we showcase the electromechanical impedance (EMI) technique as an option to extract and promote zero-group velocity and cutoff frequency resonances in a waveguide structure. We identify the mechanisms of multiple resonances in the EMI spectra via a wave propagation perspective. Furthermore, we extract the dynamic response profiles at a cutoff frequency and a ZGV frequency to confirm the localized minimum frequency behavior within corresponding branches.
Presenter
Keping Zhang
The Univ. of Utah (United States)
Ms. Zhang is a Ph.D. student in the Civil and Environmental Engineering Department at the University of Utah. She has been working in the Infrastructure Sensing and Experimental Mechanics (iSEM) Lab for two years. Keping’s research interests focus on smart sensor development and wave propagation modeling applicable for civil infrastructure maintenance. Prior to joining the University of Utah, Keping was a research assistant at Hong Kong Polytechnic University, Hong Kong, where she worked on the modeling of piezoelectric composite sensors.