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On the attenuation of fluid–structure coupled modes in a non-planar waveguide

Sajid Shafique, Muhammad Afzal, Rab Nawaz

2020Mathematics and Mechanics of Solids30 citationsDOI

Abstract

In this article, the attenuation of fluid–structure coupled modes of non-planar waveguide involving cavities is discussed. The physical problem is modeled to illustrate the scattering behavior of acoustic waves in a flexible waveguide composed of thin elastic elements having edges or joints and structural discontinuities. The fluid–structure coupled waveforms scatter after interacting with the discontinuities and edges of the underlying structure. An appropriate choice of edges offers scattering or resonance processes, which also guide fluid–structure coupled waves. The mode-matching technique, together with low-frequency approximation, is used to determine velocity potentials. The guiding structure is then analyzed and validated through scattering energy functionals by varying the dimensions of the cavities and the wave frequency. The results are formulated and analyzed by tuning the device using an appropriate choice of edge conditions, dimension of cavities, and wave frequencies, thereby validating the obtained solutions. These descriptions are very useful for the active control measure of structural vibrations.

Topics & Concepts

Classification of discontinuitiesWaveguideAttenuationPlanarScatteringStructural acousticsPhysicsAcousticsOpticsVibrationNormal modeMechanicsClassical mechanicsMathematical analysisMathematicsComputer scienceComputer graphics (images)Acoustic Wave Phenomena ResearchUltrasonics and Acoustic Wave PropagationMicrowave and Dielectric Measurement Techniques