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Mechanical metamaterials

Richard V. Craster, Sébastien Guenneau, Muamer Kadic, Martin Wegener

2023Reports on Progress in Physics116 citationsDOIOpen Access PDF

Abstract

Mechanical metamaterials, also known as architected materials, are rationally designed composites, aiming at elastic behaviors and effective mechanical properties beyond ('meta') those of their individual ingredients-qualitatively and/or quantitatively. Due to advances in computational science and manufacturing, this field has progressed considerably throughout the last decade. Here, we review its mathematical basis in the spirit of a tutorial, and summarize the conceptual as well as experimental state-of-the-art. This summary comprises disordered, periodic, quasi-periodic, and graded anisotropic functional architectures, in one, two, and three dimensions, covering length scales ranging from below one micrometer to tens of meters. Examples include extreme ordinary linear elastic behavior from artificial crystals, e.g. auxetics and pentamodes, 'negative' effective properties, behavior beyond classical linear elasticity, e.g. arising from local resonances, chirality, beyond-nearest-neighbor interactions, quasi-crystalline mechanical metamaterials, topological band gaps, cloaking based on coordinate transformations and on scattering cancelation, seismic protection, nonlinear and programmable metamaterials, as well as space-time-periodic architectures.

Topics & Concepts

MetamaterialCloakingPhysicsAuxeticsAnisotropyNonlinear systemElasticity (physics)Theoretical physicsClassical mechanicsOpticsQuantum mechanicsThermodynamicsCellular and Composite StructuresAcoustic Wave Phenomena ResearchFluid Dynamics Simulations and Interactions
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