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Structural function from sequential, interacting elastic instabilities

Ed Wheatcroft, Jiajia Shen, Rainer Groh, Alberto Pirrera, Mark Schenk

2023Proceedings of the Royal Society A Mathematical Physical and Engineering Sciences16 citationsDOIOpen Access PDF

Abstract

Elastic instabilities have traditionally been considered a failure mechanism; however, recent years have seen numerous studies exploiting instabilities as a means to achieve structural functionality. By contrast, interacting instabilities and compound buckling are still largely viewed as a failure mechanism. In this paper, we show that interacting instabilities can also be exploited to achieve bespoke functionality. We focus on ‘sequential instabilities’, whose associated critical points cannot both lie on a fundamental equilibrium path. We obtain sequential instabilities by combining canonical bifurcations, (e.g. limit point, pitchfork) as building-blocks. Initially, this concept is explored through simple bar-and-spring models that are found to have several properties not exhibited by the building blocks from which they are constructed. Further, the utility of the building block approach, and that of sequential, interacting instabilities, is demonstrated through the development of a morphing structure which must rapidly deploy after a critical input displacement is attained, and meet specific post-deployment stiffness requirements. Two design concepts are proposed, each comprising building blocks to mirror the fundamental working principles identified through the bar-and-spring models. Finite-element models of the design solutions are presented, demonstrating how the designs positively use sequential, interacting instabilities in order to meet the challenging requirements of the application. This work extends the contextual framework of instabilities that can be used to create structures with novel functionality.

Topics & Concepts

MorphingBespokeComputer scienceStiffnessFocus (optics)BucklingBlock (permutation group theory)InstabilityPath (computing)Structural engineeringEngineeringPhysicsMathematicsArtificial intelligenceGeometryMechanicsProgramming languagePolitical scienceOpticsLawStructural Analysis and OptimizationDynamics and Control of Mechanical SystemsStructural Engineering and Vibration Analysis
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