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A modified unsteady-nonlinear aeroelastic model for flapping wings
Pourtakdoust, S. H ; Sharif University of Technology | 2022
26
Viewed
- Type of Document: Article
- DOI: 10.1177/09544100221108316
- Publisher: SAGE Publications Ltd , 2022
- Abstract:
- A novel integrated aeroelastic model of flapping wings (FWs) undergoing a prescribed rigid body motion is presented. In this respect, the FW nonlinear structural dynamics is enhanced via a newly proposed modification of implicit condensation and expansion (MICE) method that better considers the structural nonlinear effects. In addition, the unsteady aerodynamic model is also an extension of the widely utilized modified strip theory (MST) in which the flexibility effects are accounted for (MST-Flex). The integrated utility of the proposed generalized MICE and MST-Flex is demonstrated to be more realistic for elastic FW flight simulation applications. The prescribed rigid body motion is produced via a servo motor whose dynamics is also considered for the analysis. A special case study is also performed whose combined aeroelastic solution is determined and validated under a sinusoidal flapping motion. To this end, an experimental setup is designed and tested in order to validate the proposed integrated approach for aeroelastic modeling of FWs. There is very good agreement between the numerical and experimental results for elastic FW aerodynamics. It should be noted that the proposed integrated aeroelastic approach is readily adaptable to all kinds of elastic wings with arbitrary geometry and various combination of structural elements. © IMechE 2022
- Keywords:
- Aeroelastic model ; Flapping wings ; Unsteady aerodynamics ; Aerodynamics ; Aeroelasticity ; Flight simulators ; Mammals ; Rigid structures ; Rigid wings ; Aeroelastic models ; Expansion methods ; Flapping-wing ; Nonlinear ; Nonlinear aeroelastic modeling ; Nonlinear effect ; Nonlinear structural dynamics ; Rigid-body motion ; Strip theory ; Structural dynamics
- Source: Proceedings of the Institution of Mechanical Engineers, Part G: Journal of Aerospace Engineering ; 2022 ; 09544100 (ISSN)
- URL: https://journals.sagepub.com/doi/10.1177/09544100221108316?icid=int.sj-full-text.citing-articles.1