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Enhancing energy absorption through sequential instabilities in mechanical metamaterials

Adam Bekele, M. Ahmer Wadee, Andrew Phillips

2023Royal Society Open Science26 citationsDOIOpen Access PDF

Abstract

Structural components designed to absorb energy and shield a more valuable structure ideally require mechanical properties that combine a relatively high load-carrying capacity followed by a practically zero stiffness. This ensures that a specified energy quantity may be absorbed within a limited displacement and that any stress transfer to the valuable structure is minimized. Material damage has been historically mobilized to provide such properties, but this obviously renders such components to be single-use. By contrast, mobilization of elastic instability can also provide the desired combination of properties but without necessarily damaging the material. This reveals an intriguing possibility of such components being potentially repairable and theoretically re-usable with no significant loss in performance. A series of analytical, finite-element and experimental studies are presented for a bespoke mechanical metamaterial arrangement that is designed to buckle sequentially and behave with the desired 'high strength-low stiffness' characteristic. It is found that the various axial and rotational stiffnesses associated with the geometric arrangement and its constituent connections may be tuned to provide the desired mechanical behaviour within the elastic range and delay the onset of significant damage, thereby rendering the concept of harnessing instability to be feasible.

Topics & Concepts

StiffnessMetamaterialRendering (computer graphics)InstabilityUSableMaterials scienceFinite element methodComputer scienceStructural engineeringStress (linguistics)MechanicsMechanical engineeringComposite materialPhysicsEngineeringWorld Wide WebLinguisticsPhilosophyOptoelectronicsComputer graphics (images)Cellular and Composite StructuresStructural Analysis and OptimizationAdvanced Materials and Mechanics
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