Materials & Design (Aug 2023)

Multifunctional mechanical metamaterials with tunable double-negative isotropic properties

  • Zuyu Li,
  • Wei Gao,
  • Nicole Kessissoglou,
  • Sebastian Oberst,
  • Michael Yu Wang,
  • Zhen Luo

Journal volume & issue
Vol. 232
p. 112146

Abstract

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This research was focused on innovative design of lattice metamaterials that can exhibit tunable double-negative mechanical properties and elastic isotropy simultaneously. A discrete topology optimization method using a multi-material ground structure was developed to create microlattices exhibiting both negative thermal expansion coefficient and negative Poisson’s ratio in a single integrated design, while maintaining elastic isotropy. First, the numerical homogenization method with beam elements was used to estimate the effective thermal and elastic properties of a microlattice. Second, the topological design, subject to required geometric constraints, was formulated as a mixed integer programming problem to discover a series of multi-material microlattices that present customized isotropic values of negative thermal expansion coefficient and negative Poisson’s ratio. Finally, several three-dimensional multi-material microstructures were produced by altering either the cross-sections or constituent materials of struts to demonstrate their tunable mechanical properties.

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