Dynamic Characteristics Study of the Deployment Process of Aircraft Folding Wing
2026-99-1860
To be published on 07/17/2026
- Content
- Folding wing mechanisms are widely applied in aircraft structural design. This design reduces the size of the aircraft, making it easier to store and transport. Whether the foldable wing can successfully deploy determines the completion of the flight mission. Therefore, it is crucial to study the kinematic and dynamic parameters of the mechanism during the deployment process. The deployment of the folding wing typically occurs within milliseconds. The flow field imposes aerodynamic loads on the mechanism, causing it to move, while the large deformation motion of the mechanism, in turn, affects the aerodynamic loads from the flow field. This is a typical fluid-structure interaction (FSI) process. Traditional CFD methods for solving the deployment process in a decoupled manner often result in large errors and cumbersome procedures. To investigate the aerodynamic loads and deformation of the folding wing mechanism during deployment, the ALE algorithm in LS-DYNA was selected to directly solve the kinematic and dynamic parameters of the mechanism in unsteady flow fields, guiding the design of foldable wing mechanisms.
- Citation
- Wei, T., Tong, Z., and Li, N., "Dynamic Characteristics Study of the Deployment Process of Aircraft Folding Wing," 2025 International Conference on Aircraft Control and Navigation Technology (ACNT 2025), Zhenzhou, China, September 8, 2025, .