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Non-Linear Analysis in Post-Buckling Regime of a Tilt Rotor Composite Wing Structure Using Detailed Model and Robust Loading Approach.

Authors :
Chiariello, Antonio
Vitale, Pasquale
Belardo, Marika
Di Caprio, Francesco
Linari, Mauro
Pezzella, Claudio
Beretta, Jacopo
Di Palma, Luigi
Source :
Journal of Composites Science; Jan2024, Vol. 8 Issue 1, p4, 22p
Publication Year :
2024

Abstract

The design and development of a wing for a completely brand-new aircraft represents, in aeronautics, one of the highest challenges from an engineering point of view. The present work describes a novel methodology devoted to execute numeric simulation in a non-linear post-buckling regime to verify the composite wing compliance under the design load conditions. The procedure was developed as part of a wing design and research activity and was motivated by the need to have more realistic results, without standard conservatisms like the no-buckling up to ultimate load, to be of use for achieving further weight savings. To carry this out, it was obviously necessary to ensure that the structural integrity was also guaranteed in the post-buckling regime, above the limit load, and therefore in a highly non-linear regime. The present work illustrates a numerical approach based on non-linear finite element analysis which uses the inertia relief option in order to have a more realistic representation of the structural response of the wing in its real context. All that represents a novelty since, at present, the commercial FE codes allow us to use the inertia relief option exclusively for linear analysis. Obviously, the approach can be applied to any other structural component with similar needs. The obtained results show that the differences between linear and non-linear regime are not negligible and, above all, that it is possible to design a wing (or other structural components) considering, at the same time, the large deformation due to the post-buckling regime, the material non-linearities due to the failures and any other non-linearities in order to achieve the challenging weight requirement of the new aircraft generation. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
2504477X
Volume :
8
Issue :
1
Database :
Complementary Index
Journal :
Journal of Composites Science
Publication Type :
Academic Journal
Accession number :
175078906
Full Text :
https://doi.org/10.3390/jcs8010004