Publication detail
Multidisciplinary Design Optimization Framework for Morphing Wing using Metamaterials
ZIKMUND, P. KOFLER, M. NAVRÁTIL, J. HRSTKA, M. POLLÁK, J. VAN KAMPEN, E.
English title
Multidisciplinary Design Optimization Framework for Morphing Wing using Metamaterials
Type
conference paper
Language
en
Original abstract
Metamaterials offer innovative potential for morphing wing design. This study investigates two approaches: a variable-stiffness leading edge and a trailing edge with a metamaterial lattice hinge, applying Multidisciplinary Design Optimization to compare these designs against a conventional composite wing. Aerodynamic, structural, and control analyses are integrated, with initial findings bridging 2D aero-structural wing rib design and 3D aerodynamic and control evaluations.
English abstract
Metamaterials offer innovative potential for morphing wing design. This study investigates two approaches: a variable-stiffness leading edge and a trailing edge with a metamaterial lattice hinge, applying Multidisciplinary Design Optimization to compare these designs against a conventional composite wing. Aerodynamic, structural, and control analyses are integrated, with initial findings bridging 2D aero-structural wing rib design and 3D aerodynamic and control evaluations.
Keywords in English
metamaterials, morphing wing, multidisciplinary design optimization, unmanned aerial vehicles
Released
28.01.2025
Publisher
IEEE
ISBN
979-8-3315-2774-7
ISSN
2836-2764
Book
2024 New Trends in Aviation Development (NTAD)
Pages from–to
236–241
Pages count
6
BIBTEX
@inproceedings{BUT193813,
author="Pavel {Zikmund} and Michael {Kofler} and Jan {Navrátil} and Miroslav {Hrstka} and Jakub {Pollák} and Erik-Jan {Van Kampen},
title="Multidisciplinary Design Optimization Framework for Morphing Wing using Metamaterials",
booktitle="2024 New Trends in Aviation Development (NTAD)",
year="2025",
month="January",
pages="236--241",
publisher="IEEE",
isbn="979-8-3315-2774-7",
issn="2836-2764"
}