渐进式可变弯曲柔性机翼设计及干式风洞试验

X. Xu, G. G. Chen, S. Li, T. Lv
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引用次数: 0

摘要

可变形机翼结构可以根据飞行任务和飞行环境的变化改变其气动形状,从而获得更好的升阻、稳定性和控制特性,被认为是未来航空技术的研究方向之一。考虑到当前技术的成熟度和可靠性,设计了梯度波纹翼来实现机翼的弯曲变形。皮肤的结构被优化,以保持皮肤在变形时光滑。此外,提出了一种推进拉杆驱动机翼变形的方法,并对机翼变形进行了流固耦合仿真。同时,分析了不同前后缘角度和不同推杆作用方案下机翼气动特性的变化。最后,对所设计的渐进式柔性变弯曲机翼进行了干式风洞模拟试验。流固耦合仿真和干式风洞试验结果表明,本文提出的渐进式柔性变弯曲机翼结构简单可靠,变形效果显著。具有增升减阻、保证高升阻比、提供翼缘力矩等优点。采用该方法设计的可变形机翼干式风洞试验平台结构可靠,操作方便,能准确反映机翼变形对其气动力的影响,为今后设计方法的发展和实际飞机的设计提供了验证手段。
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Design and dry wind tunnel test of progressive flexible variable bending wing
The deformable wing structure can change its aerodynamic shape according to the change of flight mission and flight environment, so as to obtain better lift-drag, stability and control characteristics, which is considered as one of the future research directions of aviation technology. Considering the current technology maturity and reliability, a gradient corrugated fin is designed to realise the bending deformation of the wing. The structure of the skin is optimised to keep the skin smooth during deformation. In addition, a progressive push and pull rod is proposed to drive the wing deformation, and the fluid-structure interaction simulation is carried out for the wing deformation. At the same time, the changes of wing aerodynamic characteristics under different angles of leading and trailing edges and different push rod action schemes are analysed. Finally, a dry wind tunnel simulation test of the designed progressive flexible variable bending wing is carried out. The results of fluid-structure interaction simulation and dry wind tunnel test show that the progressive flexible variable bending wing proposed in this paper has a simple and reliable structure and remarkable deformation effect. It has advantages in increasing lift and reducing drag, ensuring high lift-drag ratio and providing wing trim moment. The deformable wing dry wind tunnel test platform designed by this method is structurally reliable, easy to operate, and can accurately reflect the influence of wing deformation on its aerodynamic force, which provides a verification means for the development of the design method and the design of practical aircraft in the future.
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