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Three-dimensional auxetic materials with controllable thermal expansion

Minghui Fu, Jingxiang Huang, Binbin Zheng, Y.M. Chen, Ce Huang

2020Smart Materials and Structures25 citationsDOI

Abstract

Abstract Thermal expansion and stress of solid materials can significantly affect structural safety and instrument accuracy in many engineering fields. An alternative way to overcome these drawbacks is to use materials with controllable coefficients of thermal expansion (CTEs). This work presents a new three-dimensional (3D) material with controllable CTEs that is composed of chiral honeycomb layers connected by a set of inclined struts. Although each single chiral layer has positive CTEs, by carefully designing geometric parameters and material constituents, the negative thermal expansion (NTE) can be established. Analytical solutions of the equivalent CTEs are proposed using the classical beam theory, which were verified by finite element simulations. The results show that the proposed material can achieve a large range of CTEs (from positive to negative), and has negative Poisson’s ratios in the chiral honeycomb planes. In addition, isotropic negative and zero thermal expansion can be obtained with appropriate design parameters.

Topics & Concepts

AuxeticsThermal expansionMaterials scienceIsotropyNegative thermal expansionHoneycombFinite element methodMaterial propertiesStress (linguistics)ThermalComposite materialPoisson's ratioWork (physics)Structural engineeringPoisson distributionMechanical engineeringMathematicsThermodynamicsOpticsPhysicsEngineeringStatisticsLinguisticsPhilosophyCellular and Composite StructuresPolymer Nanocomposites and PropertiesShape Memory Alloy Transformations
Three-dimensional auxetic materials with controllable thermal expansion | Litcius