Efficient structural optimisation of composite materials aircraft wings

Contemporary computational analysis of modern aircraft structures demands rapid and efficient, yet accurate enough tools for the conceptual and preliminary design stages. On that front, a novel optimisation framework, utilising low-cost numerical tools for sizing composite materials aircraft wings s...

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Published inComposite structures Vol. 303; p. 116268
Main Authors Kilimtzidis, Spyridon, Kotzakolios, Athanasios, Kostopoulos, Vassilis
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.01.2023
Subjects
Composite materials
Equivalent plate method
FEA
Optimisation
Composite materials
FEA
Equivalent plate method
Optimisation
Online AccessGet full text
ISSN0263-8223
DOI10.1016/j.compstruct.2022.116268

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Abstract Contemporary computational analysis of modern aircraft structures demands rapid and efficient, yet accurate enough tools for the conceptual and preliminary design stages. On that front, a novel optimisation framework, utilising low-cost numerical tools for sizing composite materials aircraft wings subject to stiffness, strength and dynamic aeroelastic constraints is proposed herein. The structural representation of the numerical model is based on the well-established equivalent-plate methodology, capable of reducing the size and computational cost of the associated problem. An equivalent-plate model of a modern transport aircraft wing is developed and compared to its equivalent 3D Finite Element Method model. Results by means of natural frequencies and modes, indicate excellent accordance between the numerical models. An optimisation framework is then presented, with the ply thicknesses of a baseline lay-up being assigned as design variables. The developed framework succeeds to guide the mass of the wing to a minimum while satisfying the constraints under a critical loading scenario. Optimal lay-ups for the skins, spar webs and ribs as well as spar and rib caps dimensions are obtained. The presented optimisation framework, exhibiting high accuracy and efficiency, constitutes a robust numerical tool for the early design stages of composite aircraft wings.
AbstractList Contemporary computational analysis of modern aircraft structures demands rapid and efficient, yet accurate enough tools for the conceptual and preliminary design stages. On that front, a novel optimisation framework, utilising low-cost numerical tools for sizing composite materials aircraft wings subject to stiffness, strength and dynamic aeroelastic constraints is proposed herein. The structural representation of the numerical model is based on the well-established equivalent-plate methodology, capable of reducing the size and computational cost of the associated problem. An equivalent-plate model of a modern transport aircraft wing is developed and compared to its equivalent 3D Finite Element Method model. Results by means of natural frequencies and modes, indicate excellent accordance between the numerical models. An optimisation framework is then presented, with the ply thicknesses of a baseline lay-up being assigned as design variables. The developed framework succeeds to guide the mass of the wing to a minimum while satisfying the constraints under a critical loading scenario. Optimal lay-ups for the skins, spar webs and ribs as well as spar and rib caps dimensions are obtained. The presented optimisation framework, exhibiting high accuracy and efficiency, constitutes a robust numerical tool for the early design stages of composite aircraft wings.
ArticleNumber 116268
Author Kostopoulos, Vassilis
Kotzakolios, Athanasios
Kilimtzidis, Spyridon
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  year: 1979
  ident: 10.1016/j.compstruct.2022.116268_b60
  article-title: Systematic control design by optimizing a vector performance index
  publication-title: IFAC Proc Vol
  doi: 10.1016/S1474-6670(17)65584-8
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Snippet Contemporary computational analysis of modern aircraft structures demands rapid and efficient, yet accurate enough tools for the conceptual and preliminary...
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SourceType Enrichment Source
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Publisher
StartPage 116268
SubjectTerms Composite materials
Equivalent plate method
FEA
Optimisation
Title Efficient structural optimisation of composite materials aircraft wings
URI https://dx.doi.org/10.1016/j.compstruct.2022.116268
Volume 303
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