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Bio-inspired semi-flexible joint based on fibre-reinforced composites with shape memory alloys

Felix Lohse, Carmen Wende, Klaus‐Dieter Klass, Rico Hickmann, Eric Häntzsche, Quentin Bollengier, Moniruddoza Ashir, Rico Pöschel, Nils Bolk, Wolfgang Trümper, Chokri Cherif

2020Journal of Intelligent Material Systems and Structures13 citationsDOI

Abstract

Shape memory alloys (SMA) are a promising material class for active lightweight structure applications with movement functionality. Due to their high activation energy potential and good processability in wire shape, they are well suited for application in actively deformable, fibre-reinforced composite structures. In order to generate large deflections from the limited deformation potential of SMA, detailed analysis of the deformation mechanisms is required. In this work, a bionic approach is pursued, investigating the characteristics of locomotion systems of insects. A simplified joint concept is derived from the cockroach knee and implemented using flat knitting technology. A composite joint is manufactured with a resin infusion process and experimentally verified in regards to its motion behaviour. The presented results show good deformation behaviour with large deformation angles up to 60°, suggesting large potential for further development of the presented approach.

Topics & Concepts

Shape-memory alloyMaterials scienceDeformation (meteorology)Joint (building)Composite materialComposite numberWork (physics)SMA*Structural engineeringMechanical engineeringComputer scienceEngineeringAlgorithmShape Memory Alloy TransformationsInnovations in Concrete and Construction MaterialsAdvanced Materials and Mechanics
Bio-inspired semi-flexible joint based on fibre-reinforced composites with shape memory alloys | Litcius