We present a computational study on the aerodynamic performance of flexible wings aiming to facilitate the design of insect-inspired flapping-wing micro air vehicles (FMAVs). First, we propose using a two-dimensional mechanical model for a flapping wing to help understand the mechanism underlying its unsteady deformation when exposed to aerodynamic and inertia forces. This is followed by comparative analyses of both flexible wings and fixed wings in flight. In particular, a 'swaying propulsion' mechanism is proposed to mimic the flapping of the winged insects, and a new concept of 'initial torsion angle' is introduced to provide an equivalent means to account for the asymmetry of the torsional stiffness of the thorax muscle during upstroke and downstroke flapping. Subsequently, the aerodynamic forces and power requirements for a bumblebee's wings under various flight conditions are systematically examined. Our results indicate that flexibility of the wings largely contributes to the high lifts and that gliding forces play a significant role in improving flight performance, suggesting that optimal design of the structure and flapping motions of wings could achieve improved efficiency in FMAVs. These studies promote a brand new design concept for future insect-inspired FMAVs.


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    Title :

    Dissection of a Flexible Wing's Performance for Insect-Inspired Flapping-Wing Micro Air Vehicles


    Contributors:
    Lu, Guang (author) / Yan, Jingping (author) / Zhang, ZhiSheng (author) / Shi, Jinfei (author) / Yan, Yuling (author)

    Published in:

    Advanced Robotics ; 26 , 5-6 ; 409-435


    Publication date :

    2012


    Size :

    27 Seiten




    Type of media :

    Article (Journal)


    Type of material :

    Print


    Language :

    English




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