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Volume 35 Issue 8
Aug.  2009
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Journal of Beijing University of Aeronautics and Astronautics  > 2009  >  35(8): 909-912.
Wang Lixin, Li Lin. Requirement characteristics of low-aspect-ratio combat flying wings- roll axis control power[J]. Journal of Beijing University of Aeronautics and Astronautics, 2009, 35(8): 909-912. (in Chinese)
Citation: Wang Lixin, Li Lin. Requirement characteristics of low-aspect-ratio combat flying wings- roll axis control power[J]. Journal of Beijing University of Aeronautics and Astronautics, 2009, 35(8): 909-912. (in Chinese)
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Requirement characteristics of low-aspect-ratio combat flying wings- roll axis control power

  • School of Aeronautic Science and Engineering, Beijing University of Aeronautics and Astronautics, Beijing 100191, China

  • Received Date: 01 Jul 2008
  • Publish Date: 31 Aug 2009
    Abstract
  • The roll axis control power of low-aspect-ratio flying wings were assessed based on the criteria for Class Ⅳ aircraft presented in MIL-STD-1797A. The relationship of the roll performance requirement and the roll axis control power requirement was provided. Low-aspect-ratio flying wings need more roll axis control power with the same roll performance requirement, because of the all-wing configuration and the lager rolling moment of inertia. Without the vertical tail's contribution, the static lateral stability and control side force of the flying wing are less than those of the conventional combat aircraft, and with the application of innovative control effectors and the control allocation technology, low-aspect-ratio flying wings can achieve the decoupling control. As a result, the roll axis control power requirements of the flying wing for takeoff and landing in crosswinds and for asymmetric loading, have a lot of new characteristics in contrast with those of the conventional-configuration aircraft.

     

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    • References(1)
  • [1] MIL-STD-1797A, Flying qualities of piloted airplanes[S]. [2] Addington G A, Myatt J H. Control-surface deflection effects on the innovative control effectors (ICE 101) design . AFRL-VA-WP-TR-2000-3027, 2000:2-175 [3] John A B, Dieter M, Siva S B. Challenges and opportunities in tailless aircraft stability and control . AIAA-97-3830, 1997 [4] William J G. Innovative control effectors (Configuration 101) dynamic wind tunnel test report . AFRL-VA-WP-TR-1998-3043, 1998:1-196 [5] 李林,马超,王立新.小展弦比飞翼布局飞机稳定特性研究[J].航空学报, 2007, 28(6): 1312-1317 Li Lin, Ma Chao, Wang Lixin. Stability features of low aspect-ratio flying wings [J]. Acta Aeronautica et Astronautica Sinica, 2007, 28(6): 1312-1317(in Chinese) [6] James M B. Modular control design for the innovative control effectors (ICE) tailless fighter aircraft configuration 101-3 . AFRL-VA-WP-TR-1999-3057, 1999 [7] James M B. Tailless aircraft control allocation . AIAA-97-3605, 1997
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