2023
DOI: 10.1098/rsif.2022.0757
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Double-spiral: a bioinspired pre-programmable compliant joint with multiple degrees of freedom

Abstract: Geometry and material are two key factors that determine the functionality of mechanical elements under a specific boundary condition. Optimum combinations of these factors fulfil desired mechanical behaviour. By exploring biological systems, we find widespread spiral-shaped mechanical elements with various combinations of geometries and material properties functioning under different boundary conditions and load cases. Although these spirals work towards a wide range of goals, some of them are used as nature'… Show more

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Cited by 5 publications
(9 citation statements)
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“…The force–displacement diagrams illustrate the nonlinear behavior of the metastructure, related to the specific phases of the deformation of double‐spirals under different loading scenarios (i.e., initial clearance, unrolling, and unfolding). [ 42 ] The tension and rotation of the metastructure in two different directions occur with an inversion of anisotropy. In tension, 0.5‐N force is enough to unroll double‐spiral 1 horizontally and reach the high‐stiffness unfolding phase (around 60‐mm displacement).…”
Section: Resultsmentioning
confidence: 99%
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“…The force–displacement diagrams illustrate the nonlinear behavior of the metastructure, related to the specific phases of the deformation of double‐spirals under different loading scenarios (i.e., initial clearance, unrolling, and unfolding). [ 42 ] The tension and rotation of the metastructure in two different directions occur with an inversion of anisotropy. In tension, 0.5‐N force is enough to unroll double‐spiral 1 horizontally and reach the high‐stiffness unfolding phase (around 60‐mm displacement).…”
Section: Resultsmentioning
confidence: 99%
“…The compression of the double‐spirals starts with a low‐stiffness deformation phase, which arises from the free space between their coils, and continues with a gradual increase in the stiffness, which results from the contact between the coils. [ 42 ] The different compressive behaviors of the metastructure in x , y , and z directions are mainly caused by the different free space available between the coils of the double‐spirals and their thicknesses, which can be simply adjusted by changing the values of the design variables.…”
Section: Resultsmentioning
confidence: 99%
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