Archivio Istituzionale della RicercaThis work presents a shape sensing method capable of handling some geometrical complexities commonly observed in aerospace structures. The method presented is based on the one-dimensional inverse Finite Element Method (1D-iFEM), which is capable of accurately reconstructing structural displacements of beam structures using surface strain measurements. The effects of cross-sectional variation in shear strains due to transverse or torsional loads for any general beam profile is accounted for in this 1D-iFEM formulation. The introduction of these effects allows the use of iFEM for the shape sensing of solid or thin-walled prismatic beams with any general beam profile. The performance of the new method is demonstrated through some example problems of prismatic beams under various static loading scenarios.
A shape sensing methodology for beams with generic cross-sections: Application to airfoil beams / Roy, R.; Gherlone, M.; Surace, C.. - In: AEROSPACE SCIENCE AND TECHNOLOGY. - ISSN 1270-9638. - STAMPA. - 110:(2021), pp. 1-10. [10.1016/j.ast.2020.106484]
A shape sensing methodology for beams with generic cross-sections: Application to airfoil beams
Roy R.;Gherlone M.;Surace C.
2021
Abstract
This work presents a shape sensing method capable of handling some geometrical complexities commonly observed in aerospace structures. The method presented is based on the one-dimensional inverse Finite Element Method (1D-iFEM), which is capable of accurately reconstructing structural displacements of beam structures using surface strain measurements. The effects of cross-sectional variation in shear strains due to transverse or torsional loads for any general beam profile is accounted for in this 1D-iFEM formulation. The introduction of these effects allows the use of iFEM for the shape sensing of solid or thin-walled prismatic beams with any general beam profile. The performance of the new method is demonstrated through some example problems of prismatic beams under various static loading scenarios.
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2021_AST_iFEM_Beam_Airfoil.pdf
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2021_AST_iFEM_Beam_Airfoil_AAM.pdf
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https://hdl.handle.net/11583/2869407