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Anisotropy and deformation of triply periodic minimal surface based lattices with skew transformation

Nan Yang, Zheng Qian, Huaxian Wei, Miao Zhao

2023Materials & Design28 citationsDOIOpen Access PDF

Abstract

Triply periodic minimal surfaces (TPMSs) are common in energy, aerospace, optics, and medical fields. Although many works focus on substantially tuning the anisotropy for a hybrid lattice with various TPMS types, tuning the anisotropy for a single TPMS type has not been sufficiently investigated. This study proposes a skew transformation (ST) to distort TPMS lattices at the design stage, to modify their mechanical anisotropies and tailor their deformations under uniaxial loading. The ST method enables a standard TPMS lattice to increase the direction-dependent modulus without changing the lattice’s volume fraction, which is 38% higher than the theoretical Hashin–Shtrikman upper (HSU) bound for a sheet lattice. Accordingly, three-dimensional (3D) modulus surfaces were generated for ST lattices with different ST angles. Shear deformation under uniaxial compression was generated to obtain a nominal negative Poisson’s ratio of −0.66 with the combination of ST and hole design. Furthermore, the ST method was used to texture the local deformation, stress distribution, and failure form by constructing a cellular mechanical metamaterial, by combining ST and standard unit cells in a targeted texture pattern. This design concept is not limited to TPMS lattices and can be applied to other types of strut- and sheet-based lattices.

Topics & Concepts

Materials scienceAnisotropySkewDeformation (meteorology)Transformation (genetics)Surface (topology)Minimal surfaceGeometryComposite materialOpticsMathematicsComputer sciencePhysicsTelecommunicationsGeneChemistryBiochemistryAdvanced Theoretical and Applied Studies in Material Sciences and GeometryComputational Geometry and Mesh GenerationQuasicrystal Structures and Properties