Experimental investigation of effects of flapping wing aspect ratio and flexibility on aerodynamic performance

机译：襟翼纵横比和柔韧性对空气动力性能影响的实验研究

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In earlier studies, the optimal wing kinematics that gives the best aerodynamic performance was determined with a robotic flapper. The geometry and physical properties of wings are also critical for designing and fabricating Flapping Wing Micro Air Vehicles (FWMAVs). In this paper, the effects of wing aspect ratio and flexibility on aerodynamic performance are experimentally investigated to determine the optimal aspect ratio for Micro Air Vehicles (MAVs) wings at Reynolds number around 18,000. The comparison between the aerodynamic performance of rigid wings and flexible wings are also made whose veins are fabricated out of different materials.

机译：在较早的研究中，使用机器人挡板确定了可提供最佳空气动力学性能的最佳机翼运动学。机翼的几何形状和物理特性对于设计和制造襟翼机翼微型飞行器（FWMAV）也是至关重要的。本文通过机翼长宽比和柔韧性对空气动力性能的影响进行了实验研究，以确定雷诺数约为18,000的微型飞行器（MAV）机翼的最佳长宽比。还对刚性机翼和柔性机翼的空气动力学性能进行了比较，它们的静脉由不同的材料制成。

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《2010 IEEE International Conference on Robotics and Automation》|2010年|P.626-631|共6页
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Zhang Chengkun; Khan Zaeem A.; Agrawal Sunil K.;
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中图分类机器人技术;
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Experimental investigation of effects of flapping wing aspect ratio and flexibility on aerodynamic performance

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