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Designing Shape Morphing Behavior through Local Programming of Mechanical Metamaterials

Franziska Wenz, Ingo Schmidt, Alexander Leichner, Tobias Lichti, Sascha Baumann, Heiko Andrae, Christoph Eberl

2021Advanced Materials67 citationsDOIOpen Access PDF

Abstract

Abstract Shape morphing implicates that a specific condition leads to a morphing reaction. The material thus transforms from one shape to another in a predefined manner. In this paper, not only the target shape but rather the evolution of the material's shape as a function of the applied strain is programmed. To rationalize the design process, concepts from informatics (processing functions, for example, Poisson's ratio (PR) as function of strain: ν = f (ε) and if‐then‐else conditions) will be introduced. Three types of shape morphing behavior will be presented: (1) achieving a target shape by linearly increasing the amplitude of the shape, (2) filling up a target shape in linear steps, and (3) shifting a bulge through the material to a target position. In the first case, the shape is controlled by a geometric gradient within the material. The filling kind of behavior was implemented by logical operations. Moreover, programming moving hillocks (3) requires to implement a sinusoidal function ε y = sin (ε x ) and an if‐then‐else statement into the unit cells combined with a global stiffness gradient. The three cases will be used to show how the combination of mechanical mechanisms as well as the related parameter distribution enable a programmable shape morphing behavior in an inverse design process.

Topics & Concepts

MorphingFrustumShape optimizationPosition (finance)Computer scienceFunction (biology)Materials scienceProcess (computing)GeometryArtificial intelligenceStructural engineeringMathematicsFinite element methodEngineeringBiologyEvolutionary biologyFinanceEconomicsOperating systemCellular and Composite StructuresAdvanced Materials and MechanicsStructural Analysis and Optimization