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An Auxetic Metamaterial Based on Rotating and Nonrotating Rigid Units Inspired by an Aztec Geometric Pattern

Teik‐Cheng Lim

2022physica status solidi (b)26 citationsDOI

Abstract

An auxetic metamaterial based on a semirotation system is designed herein by combining rigid units of two different shapes, such that each unit cell consists of one nonrotating rhombus and four rotating right triangles. The on‐axes Poisson's ratios are obtained for both infinitesimal and finite deformations by geometrical consideration. The on‐axes Young's moduli of this metamaterial are established by matching the spring potential energy stored at the hinged joints with the strain energy of deformation for the homogenized continuum of the metamaterial. Plotted results describe the interlacing effect of the shape descriptor, the original separation angles, and the change in the separation angle on the on‐axes Poisson's ratio and Young's modulus. The latter is directly proportional to the equivalent spring stiffness per unit cell. In addition to attaining auxetic behavior, this metamaterial can also be designed to achieve specific Young's modulus behavior including extreme stiffness in one of the directions either at infinitesimal or finite deformation.

Topics & Concepts

AuxeticsMetamaterialStiffnessPoisson's ratioModulusDeformation (meteorology)Poisson distributionBending stiffnessModuliFinite strain theoryGeometryMaterials scienceMathematical analysisPhysicsFinite element methodMechanicsMathematicsOpticsComposite materialQuantum mechanicsStatisticsThermodynamicsCellular and Composite StructuresAdvanced Materials and MechanicsStructural Analysis and Optimization