Litcius/Paper detail

A computational method for determining the linear elastic properties of 2D aperiodic lattice structures

Chikwesiri Imediegwu, Uwe Grimm, Richard Moat, Iestyn Jowers

2023The Journal of Strain Analysis for Engineering Design22 citationsDOIOpen Access PDF

Abstract

This paper develops a framework for determining the linear elastic properties of non-periodic lattice structures. An element-based material assignment methodology is implemented that facilitates the generation and analyses of arbitrary patterns on a structured mesh. An adapted numerical homogenization strategy features the inclusion of a homogenized region in the neighbourhood of the domain boundary that validates the implementation of periodic boundary conditions for an arbitrary finite patch of a periodic or non-periodic lattice structure. To demonstrate the method, the linear elastic properties of an aperiodic lattice pattern based on the Penrose (P3) pattern is evaluated. Such a structure exhibits order without translational symmetry and consequently lacks a repeating unit cell. The isotropic performance of the aperiodic lattice structure is investigated and compared to that of the well-known square periodic lattice. The framework opens the door to the investigation and analyses of other novel cellular structures which are not based on a repeating unit cell. Additive manufacturing facilitates the physical realization of such lattice structures, presenting them as viable alternatives to conventional periodic structures in the aerospace and bio-engineering industries.

Topics & Concepts

Aperiodic graphPeriodic boundary conditionsLattice (music)Homogenization (climate)Finite element methodTranslational symmetryIsotropyLinear elasticityMathematicsCrystal structureBoundary value problemMathematical analysisGeometryStructural engineeringPhysicsEngineeringCombinatoricsCrystallographyEcologyChemistryAcousticsBiologyQuantum mechanicsBiodiversityCellular and Composite StructuresComposite Material MechanicsQuasicrystal Structures and Properties