Ismael Ben-Yelun scite author profile

Research on auxetic metamaterials is important due to their high performance against impact loadings and their usefulness in actuators, among other applications. These metamaterials offer a negative Poisson’s ratio at the macro level. However, usual auxetic metamaterials face challenges in (1) grading the effect, (2) coupling and combining auxetic metamaterials with non-auxetic materials due to boundary compatibility, (3) obtaining the same auxetic behavior in all directions in the transverse plane, and (4) adapting the regular geometry to the component design boundary and shape. The goal of this paper is to present a novel, recently patented tunable 3D metamaterial created to reproduce a wide spectrum of 3D auxetic and non-auxetic Poisson’s ratios and Young’s moduli. This wide range is obtained using the same basic unit cell geometry and boundary connections with neighboring cells, facilitating designs using functionally graded metamaterials as only the connectivity and position of the cell’s internal nodes are modified. Based on simple spatial triangularization, the metamaterial is easily scalable and better accommodates spatial curvatures or boundaries by changing the locations of nodes and lengths of bars.

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The Updated Properties Model (UPM): A topology optimization algorithm for the creation of macro–micro optimized structures with variable stiffness

Saucedo-Mora

Ben-Yelun

García-Modet

et al. 2023

Finite Elements in Analysis and Design

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The GAM (General Auxetic Metamaterial): A Tuneable Internal Structural Configuration to Change the Auxetic Response with the Same Unit Cell Boundary Geometry

Ben-Yelun

Carano²,

Millan³

et al. 2022

SSRN Journal

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Ismael Ben-Yelun

A finite strain non-parametric hyperelastic extension of the classical phenomenological theory for orthotropic compressible composites

GAM: General Auxetic Metamaterial with Tunable 3D Auxetic Behavior Using the Same Unit Cell Boundary Connectivity

The Updated Properties Model (UPM): A topology optimization algorithm for the creation of macro–micro optimized structures with variable stiffness

The GAM (General Auxetic Metamaterial): A Tuneable Internal Structural Configuration to Change the Auxetic Response with the Same Unit Cell Boundary Geometry

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