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Numerical studies of static aeroelastic effects on grid fin aerodynamic performances

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文摘 The grid fin is an unconventional control surface used on missiles and rockets. Although aerodynamics of grid fin has been studied by many researchers, few considers the aeroelastic effects. In this paper, the static aeroelastic simulations are performed by the coupled viscous computational fluid dynamics with structural flexibility method in transonic and supersonic regimes. The developed coupling strategy including fluid-structure interpolation and volume mesh motion schemes is based on radial basis functions. Results are presented for a vertical and a horizontal grid fin mounted on a body. Horizontal fin results show that the deformed fin is swept backward and the axial force is increased. The deformations also induce the movement of center of pressure, causing the reduction and reversal in hinge moment for the transonic flow and the supersonic flow, respectively. For the vertical fin, the local effective incidences are increased due to the deformations so that the deformed normal force is greater than the original one. At high angles of attack, both the deformed and original normal forces experience a sudden reduction due to the interference of leeward separated vortices on the fin. Additionally, the increment in axial force is shown to correlate strongly with the increment in the square of normal force.
来源 Chinese Journal of Aeronautics ,2017,30(4):1300-1314 【核心库】
DOI 10.1016/j.cja.2017.04.013
关键词 Aeroelasticity ; Fluid-structure interpolation ; Grid fin ; Mesh deformation ; Radial basis function
地址

Institute of Mechanics, Chinese Academy of Sciences, Beijing, 100190

语种 英文
文献类型 研究性论文
ISSN 1000-9361
学科 航空
文献收藏号 CSCD:6043262

参考文献 共 26 共2页

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