%0 Journal Article
%T Aerodynamic force generation of an insect-inspired flapper actuated by a compressed unimorph actuator
%A Quoc-Viet Nguyen
%A Hoon C. Park
%A Nam S. Goo
%A Doyoung Byun
%J Chinese Science Bulletin
%@ 1861-9541
%D 2009
%I 
%R 10.1007/s11434-009-0324-y
%X We examined experimentally the flapping performance in terms of aerodynamic force generation of an insect-inspired flapper actuated by both of original LIPCA and compressed LIPCA. Flapping tests for two artificial wing shapes of horse botfly and hawk moth were conducted at the wing rotation angle of 60กใ and a flapping frequency range from 6 Hz to 12 Hz to find the optimum flapping frequency and to investigate the effect of compressed LIPCA and wing shape on the force generation. Flapping tests in the vacuum were also undertaken to measure the induced inertia force. The aerodynamic force was calculated by subtracting the inertia force from the total force measured in the air. It was found that the average inertia force was relatively small when compared with the average total force. The use of the compressed LIPCA could significantly improve the flapping angle of the flapper from 110กใ to 130กใ (18.2% increase) resulting in 24.5% increase in the average aerodynamic force. It was also found that flapper with hawk moth wings could produce larger force than the flapper with horse botfly wings.
%K LIPCA
%K inertia force
%K aerodynamic force
%K insect-inspired flapper
%K biomimetics
%U http://link.springer.com/article/10.1007/s11434-009-0324-y