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| Azevedo, Nuno Monteiro |
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Schenk, Mark
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Publications (8/8 displayed)
- 2023WrapToR Truss Stiffeners: Lightweight Reinforcement for Composite Skin Panels
- 2022Probing the stability landscape of prestressed stayed columns susceptible to mode interactioncitations
- 2020Newton’s method for experimental path-following of nonlinear structures
- 2019Happy Catastrophe:Recent Progress in Analysis and Exploitation of Elastic Instabilitycitations
- 2019Thermal prestress in composite compliant shell mechanismscitations
- 2019Happy Catastrophecitations
- 2018Thermal Prestress in Composite Compliant Shell Mechanisms
- 2014Novel Stacked Folded Cores for Blast-Resistant Sandwich Panelscitations
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document
Thermal Prestress in Composite Compliant Shell Mechanisms
Abstract
Due to the anisotropic nature of fibre-reinforced laminates, thermally-induced internal stresses can remain in the material after manufacture. Mismatches between coefficients of thermal expansion are especially prominent in thin shells with fewer plies or large angle variations. Such stresses cause out-of-plane warping and are therefore often deliberately avoided. Utilising their effects on structural behaviour however, can enable stiffness-tailored composite compliant mechanisms. Work detailed in this paper aims to exploit thermal prestress to reduce the torsional stiffness of cross-ply tape laminate springs.<br/><br/>An extension of an analytical tape spring model with composite thermal analysis is presented, which shows that thermal effects cause significant changes to the energy landscapes of thin composite shells. Tape springs that would otherwise be monostable structures become bistable and exhibit greater ranges of low-energy twisting when thermally-induced prestress is present. Predicted shell geometries are compared with finite element models and manufactured samples, showing good agreement between all approaches. The limited feasibility of zero torsional stiffness composite tape springs is discussed, as well as wider challenges involved in manufacturing prestressed composite compliant mechanisms such as fibre misalignment and moisture ingress.