Wave Propagation In Alternating Fluid-Solid Layered Media Via The Thin-Layer Method
A. Tsetas (TU Delft - Dynamics of Structures)
A. Tsouvalas (TU Delft - Dynamics of Structures, TU Delft - Offshore Engineering)
Andrei V. Metrikin (TU Delft - Engineering Structures, TU Delft - Hydraulic Engineering)
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Abstract
Periodic fluid-solid layered media exhibit distinctive features that can be utilized in various engineering disciplines, such as selective transmission of guided waves, omnidirectional band-gaps and Fano resonances, depending on the spatial configuration and the material properties of the fluid and solid layers involved. This work utilizes the Thin-Layer Method (TLM) in the study of layered fluid-solid media, by extending the original normal modes-based method to acousto-elastic problems. By means of this development, the band-gap structure of these periodic systems can be analysed and their effect when incorporated in fluid or solid full-/half-spaces can be investigated seamlessly for different periodic arrangements. Conclusively, this study presents a framework to analyse these systems, serving as a basis for non-local continuum theories, as well as unveiling desirable dispersion characteristics for the design of metamaterials.