Litcius/Paper detail

Conformally graded metamaterials for elastic wave guidance

Charles Dorn, Dennis M. Kochmann

2023Extreme Mechanics Letters14 citationsDOIOpen Access PDF

Abstract

Although metamaterials have been widely used for controlling elastic waves through bandgap engineering, the directed guidance of stress waves in non-periodic structures has remained a challenge. This work demonstrates that spatially graded metamaterials based on conformal mappings present a rich design space for controlling and attenuating wave motion — without the need for bandgaps. Conformal mappings transform an elementary unit cell by scaling and rotation into graded lattices with approximately geometrically similar unit cells. This self-similarity allows for control over the local wave dispersion throughout the metamaterial. As a key mechanism, it is shown that elastic waves cannot propagate through graded unit cells with significant size differences, except at low frequencies. This is exploited to create low-pass elastic wave guides, extending beyond classical bandgap engineering, since bandgaps are not required to achieve wave guiding and attenuation. Experiments confirm the low-pass elastic wave filtering capability of a planar truss metamaterial with conformal grading. Finally, a systematic design of curved metamaterial surfaces is presented, providing a flexible framework for programming low-pass attenuation and wave guiding in three dimensions.

Topics & Concepts

MetamaterialConformal mapAttenuationTrussPhysicsWave propagationOpticsPlanarAcousticsMathematical analysisComputer scienceMathematicsStructural engineeringEngineeringComputer graphics (images)Acoustic Wave Phenomena ResearchMetamaterials and Metasurfaces ApplicationsRailway Engineering and Dynamics