Inicio  /  Aerospace  /  Vol: 6 Par: 8 (2019)  /  Artículo
ARTÍCULO
TITULO

Simplified 2D Skin Lattice Models for Multi-Axial Camber Morphing Wing Aircraft

Bashir Alsaidi    
Woong Yeol Joe and Muhammad Akbar    

Resumen

Conventional fixed wing aircraft require a selection of certain thickness of skin material that guarantees structural strength for aerodynamic loadings in various flight modes. However, skin structures of morphing wings are expected to be flexible as well as stiff to structural and coupled aerodynamic loadings from geometry change. Many works in the design of skin structures for morphing wings consider only geometric compliance. Among many morphing classifications, we consider camber rate change as airfoil morphing that changes its rate of the airfoil that induces warping, twisting, and bending in multi-axial directions, which makes compliant skin design for morphing a challenging task. It is desired to design a 3D skin structure for a morphing wing; however, it is a computationally challenging task in the design stage to optimize the design parameters. Therefore, it is of interest to establish the structure design process in rapid approaches. As a first step, the main theme of this study is to numerically validate and suggest simplified 2D plate models that fully represents multi-axial 3D camber morphing. In addition to that, the authors show the usage of lattice structures for the 2D plate models? skin that will lead to on-demand design of advanced structure through the modification of selected structure.

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