A highly anisotropic morphing skin unit cell with variable stiffness ligaments
Open access
Date
2020-12-15Type
- Journal Article
Abstract
Despite major advances in morphing wing technology, morphing skins as a structural part of an adaptive aerospace system are still in their early development phase due to heavily contradicting requirements, such as highly anisotropic mechanical behaviour, air-tightness and lightness. Usually, airtightness in structural morphing skins is achieved with elastomeric covers which show poor mechanical performance and high weight. A novel design for an elastomer-free morphing skin unit cell is introduced and analysed in this work. A foldable unit cell is manufactured fully from lightweight engineering materials, based on hinge-like carbon fibre reinforced polymer ligaments. The latter reversibly fold a supported mid-section in order to generate large in-plane displacements with low actuation forces, while preserving a smooth surface in both states. The geometric parameters of the unit and the ligament design itself determine the mechanical response of the system. Within the design space of the unit cell, extreme global strains up to 100% and highly anisotropic mechanical behaviour is achieved, where resistance against aerodynamic loads exceeds the in-plane actuation force by a factor of 3.64. When used periodically, the novel unit cell is a promising base for a functional morphing skin system involving large displacements. Show more
Permanent link
https://doi.org/10.3929/ethz-b-000438643Publication status
publishedExternal links
Journal / series
Composite StructuresVolume
Pages / Article No.
Publisher
ElsevierSubject
Morphing structures; Thin-ply composites; Morphing skinOrganisational unit
02130 - Dep. Maschinenbau und Verfahrenstechnik / Dep. of Mechanical and Process Eng.00002 - ETH Zürich
03507 - Ermanni, Paolo (emeritus) / Ermanni, Paolo (emeritus)
Funding
150729 - Optical measurement of three-dimensional surface displacement fields of morphing structures (SNF)
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