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In-plane elasticity of beetle elytra inspired sandwich cores

Xindi Yu, Qicheng Zhang, Athina Kontopoulou, Giuliano Allegri, Mark Schenk, Fabrizio Scarpa

2022Composite Structures25 citationsDOIOpen Access PDF

Abstract

The Beetle Elytron Plate (BEP) is a new class of biomimetic sandwich core that features excellent compressive strength, energy absorption capacity and flexural properties. These characteristics make BEPs suitable as potential replacements of classical honeycomb cores in sandwich panels. This work describes the behaviour of the in-plane engineering elastic constants of parametric BEP topologies for the first time. The beetle elytron cores configurations are simulated using Finite Element models, including full-scale models and representative unit cells with periodic boundary conditions for asymptotic homogenization. The models are also benchmarked against experimental results obtained from ASTM tensile tests related to the in-plane Young’s modulus, Poisson’s ratio and shear modulus. The benchmarked models are then used to perform a parametric analysis against the geometry characteristics of the cellular configurations. Results obtained from this work will provide a solid foundation for further research on BEP structures and expand their applications into wider engineering fields.

Topics & Concepts

Sandwich-structured compositeHomogenization (climate)Materials scienceStructural engineeringModulusHoneycomb structureHoneycombShear modulusParametric statisticsFinite element methodBoundary value problemYoung's modulusUltimate tensile strengthFlexural strengthPeriodic boundary conditionsComposite materialCore (optical fiber)EngineeringMathematicsMathematical analysisEcologyBiologyBiodiversityStatisticsCellular and Composite StructuresPolymer composites and self-healingAdvanced Materials and Mechanics
In-plane elasticity of beetle elytra inspired sandwich cores | Litcius