Egg‐Rack‐Like Active Magnetomechanical Metamaterial DOI Open Access
Russell Galea, Krzysztof K. Dudek, Pierre‐Sandre Farrugia

et al.

physica status solidi (b), Journal Year: 2024, Volume and Issue: unknown

Published: Dec. 25, 2024

Over the years, researchers have investigated active metamaterials because of controllability their geometry and mechanical properties. However, despite undeniable appeal significance this direction studies from perspective many industries, struggled to systematically design such structures in an easily reproducible scalable manner. Herein, it is shown that can be achieved by harnessing potential foldable magnetomechanical controlled via external magnetic field. To aim, two different configurations system with one them being constrained so acts similarly a linear actuator while other allows fully control its expandability properties all directions are presented. Finally, possibility stacking considered create large systems may exhibit auxetic multiple planes will discussed. The discussed very interesting as they offer multidirectional finely movement which could untethered. This particularly promising for use actuators, vibration dampers well scaffolds deployable impact resistive materials fine‐tuned simply adjusting field reconfiguring structure.

Language: Английский

Effective elastic modulus and energy absorption performance evaluations of a novel re-entrant chiral hybrid honeycomb DOI Creative Commons
Y.J. Cui, Zhi-Hui Xu, Qulan Zhou

et al.

Applied Mathematics and Mechanics, Journal Year: 2025, Volume and Issue: unknown

Published: April 25, 2025

Language: Английский

Citations

0
Hexagonal Tessellation-based Mechanical Metamaterials DOI Creative Commons

Reza Moghimimonfared,

Andrea Spaggiari, Luigi Grasselli

et al.

Extreme Mechanics Letters, Journal Year: 2025, Volume and Issue: unknown, P. 102356 - 102356

Published: May 1, 2025

Language: Английский

Citations

0
Egg‐Rack‐Like Active Magnetomechanical Metamaterial DOI Open Access
Russell Galea, Krzysztof K. Dudek, Pierre‐Sandre Farrugia

et al.

physica status solidi (b), Journal Year: 2024, Volume and Issue: unknown

Published: Dec. 25, 2024

Over the years, researchers have investigated active metamaterials because of controllability their geometry and mechanical properties. However, despite undeniable appeal significance this direction studies from perspective many industries, struggled to systematically design such structures in an easily reproducible scalable manner. Herein, it is shown that can be achieved by harnessing potential foldable magnetomechanical controlled via external magnetic field. To aim, two different configurations system with one them being constrained so acts similarly a linear actuator while other allows fully control its expandability properties all directions are presented. Finally, possibility stacking considered create large systems may exhibit auxetic multiple planes will discussed. The discussed very interesting as they offer multidirectional finely movement which could untethered. This particularly promising for use actuators, vibration dampers well scaffolds deployable impact resistive materials fine‐tuned simply adjusting field reconfiguring structure.

Language: Английский

Citations

0