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A mathematically defined 3D auxetic metamaterial with tunable mechanical and conduction properties

Xiaoyang Zheng, Xiaofeng Guo, Ikumu Watanabe

2020Materials & Design104 citationsDOIOpen Access PDF

Abstract

An auxetic metamaterial is a type of mechanical metamaterial that has a negative Poisson's ratio. Most auxetic metamaterials are truss-based or originate from Boolean operations of simple geometries. Herein, we introduce a new 3D auxetic metamaterial that is mathematically generated from an implicit expression. Further, this metamaterial is fabricated by 3D printing using a flexible material, which allows it to recover from large deformations. The buckling-induced auxetic behavior of the metamaterial was first evaluated via compression tests and finite element analyses. A nickel layer was then plated onto the surface to enhance its stiffness, strength, and conductivity without loss of auxeticity and resilience. The integration of 3D printing and electroless plating enabled accurate control over the mechanical and conduction properties of the auxetic metamaterial; these properties are presented as contour maps for guidance in functional applications. We propose a novel 3D auxetic metamaterial derived from a mathematically defined triply periodic minimal surface. The stiffness, strength, and conductivity of the metamaterial are enhanced by nickel plating without loss of auxeticity and resilience. The effective mechanical and conduction properties were mapped against geometric parameters, including relative density and nickel layer thickness. These data maps provide insight for tuning its performance over a broad range.

Topics & Concepts

AuxeticsMetamaterialMaterials scienceStiffnessComposite material3D printingResilience (materials science)Structural engineeringOptoelectronicsEngineeringCellular and Composite StructuresAdvanced Materials and MechanicsModular Robots and Swarm Intelligence
A mathematically defined 3D auxetic metamaterial with tunable mechanical and conduction properties | Litcius