4.3 Article

An Investigation of Reconfigurable Magnetomechanical Metamaterials

出版社

WILEY-V C H VERLAG GMBH
DOI: 10.1002/pssb.202200420

关键词

auxetics; magnetic inclusions; magnetomechanical metamaterials; shape-programmable materials

资金

  1. Tertiary Education Scholarship Scheme (Malta)
  2. University of Malta [GSCRP10-21]
  3. Polish National Science Centre (NCN) [2021/40/C/ST5/00007]

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This study investigates an accordion-like system with embedded magnetic inclusion and demonstrates that its deformation depends on the magnetic moment and length of the embedded magnets. The stacking of the accordion-like system forms hexagonal honeycombs with varying Poisson's ratio, which can be altered by the positioning and properties of the magnetic inclusion and magnetic field. The dimensions of these structures can be controlled through external magnetic fields, allowing for high turnability and real-time behavior modification.
Herein, an experimental investigation of an accordion-like system with embedded magnetic inclusion is carried out. It is shown that the way that this structure deforms when subjected to an external magnetic field depends on the magnetic moment of the embedded magnets and the length of the arms. Stacking of the accordion-like system leads to the formation of hexagonal honeycombs that can have a negative, zero, and positive Poisson's ratio. Variation in the configuration attained depends on the relative positioning of the magnetic inclusion and the applied magnetic field. In particular, one of the hexagonal honeycomb arrangements is able to switch between a conventional and a re-entrant configuration upon the reversal of the external magnetic field. For all structures considered, the dimensions can be controlled through the external magnetic field, allowing for a high degree of turnability. Furthermore, their behavior can be altered in real time. The practical implications of the results are of interest since they indicate that these structures can be adopted in numerous applications, such in the design of scaffoldings for deployable structures, actuators, variable pored sieves, and sound proofing systems.

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