Print Email Facebook Twitter Twist morphing concept based on buckling-driven technologies Title Twist morphing concept based on buckling-driven technologies Author Pereira, Andres (TU Delft Aerospace Engineering) Contributor Bisagni, C. (mentor) Degree granting institution Delft University of Technology Programme Aerospace Engineering | Structures and Materials Date 2022-02-25 Abstract A novel twist morphing concept is explored, that exploits the buckling instabilities of slender spar webs integrated into a wing structure to control the twisting response to external loads. The main novelty of the concept is in controlling the effective shear stiffness of the post-buckled slender spar webs through external variable constraints acting on the out-of-plane buckling deformations. A methodology for the design and analysis of these novel morphing structures is proposed and implemented in the design of a wing box structure of promising twist morphing capabilities. The overall design process is structured into a multilevel process of increased complexity. In the first level, the morphing structure is simplified to a wing box with slender spar webs. With the objective of maximizing the morphing twists that can be achieved under the action of an external quasi-static torque, the wing box design space is explored in terms of its cross-sectional dimensions and the material assigned to the slender spar webs. In the second level, the morphing structure is expanded to include both the wing box and the external devices required to implement the adaptive constraints acting on the slender spar webs' out-of-plane buckling deformations. At this level, the objective is to design adaptive constraining devices that maximize the twist morphing capabilities, for which the influence of the constraining devices over the twisting response and their effectiveness in restraining the slender spar webs' buckling deformations become the main concerns. After an extensive design process, a design solution for the adaptive constraining devices is proposed, for which thorough analyses on the twist morphing capabilities are performed. In addition, the sensitivity of the twist morphing capabilities to the slender spar webs' geometrical imperfections is investigated. Subject Morphing WingTwist MorphingBucklingBilateral ConstraintsFinite Element AnalysisComposite To reference this document use: http://resolver.tudelft.nl/uuid:4ef50596-46e7-452e-bae2-4148474cc25a Part of collection Student theses Document type master thesis Rights © 2022 Andres Pereira Files PDF Thesis_AMPereira.pdf 76.31 MB Close viewer /islandora/object/uuid:4ef50596-46e7-452e-bae2-4148474cc25a/datastream/OBJ/view