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A novel hybrid-honeycomb structure: Enhanced stiffness, tunable auxeticity and negative thermal expansion

Xiang‐Long Peng, Swantje Bargmann

2020International Journal of Mechanical Sciences210 citationsDOIOpen Access PDF

Abstract

Most metamaterials with negative Poisson’s ratio and/or negative thermal expansion coefficient possess relatively low stiffness. In this work, a novel hybrid-honeycomb structure with enhanced stiffness is proposed. It consists of two merged hexagonal honeycombs. Analytical and computational homogenization methods are used to evaluate the effective thermoelastic properties. Analytical expressions of the effective Young’s modulus, Poisson’s ratio, and thermal expansion coefficient are given. We show that the effective thermoelastic properties of the structure are widely tunable by tailoring the microstructural geometry and the constituent materials. In particular, the in-plane effective Poisson’s ratio and thermal expansion coefficient are adjustable over a wide range, from negative to positive. By properly choosing the geometrical and material parameters, the structure can be designed to concurrently possess an enhanced stiffness and a high degree of auxeticity and negative thermal expansion.

Topics & Concepts

Materials scienceThermal expansionNegative thermal expansionHoneycombStiffnessComposite materialHoneycomb structureStructural engineeringThermalEngineeringPhysicsThermodynamicsCellular and Composite StructuresPolymer composites and self-healingAdvanced Materials and Mechanics
A novel hybrid-honeycomb structure: Enhanced stiffness, tunable auxeticity and negative thermal expansion | Litcius