The universal scissor component: Optimization of a reconfigurable component for deployable scissor structures |
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Authors: | Lara Alegria Mira Niels De Temmerman |
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Affiliation: | Department of Architectural Engineering, ?-labTRANSFORM (Transformable Structures for Sustainable Development), Vrije Universiteit Brussel, Brussels, Belgium |
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Abstract: | Deployable scissor structures are well equipped for temporary and mobile applications since they are able to change their form and functionality. They are structural mechanisms that transform from a compact state to an expanded, fully deployed configuration. A barrier to the current design and reuse of scissor structures, however, is that they are traditionally designed for a single purpose. Alternatively, a universal scissor component (USC)—a generalized element which can achieve all traditional scissor types—introduces an opportunity for reuse in which the same component can be utilized for different configurations and spans. In this article, the USC is optimized for structural performance. First, an optimized length for the USC is determined based on a trade-off between component weight and structural performance (measured by deflections). Then, topology optimization, using the simulated annealing algorithm, is implemented to determine a minimum weight layout of beams within a single USC component. |
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Keywords: | scissor structures deployable structures component reuse shape optimization topology optimization |
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