The smart active blade tip (SABT) rotor incorporates blade tips that can be independently pitched with respect to the main blade. The blade tips are used as on-blade control surfaces for vibration reduction. The experimental testing focussed on a small scale four-bladed rotor on a bearingless Bell-412 hub. The fabricated Mach-scale active-tip rotor has a diameter of 1.524 m, a blade chord of 76.2 mm and 10% span active tips. The blade tips are driven by a novel piezo-induced bending-torsion coupled actuator beam, located spanwise in the hollow mid-cell of the main rotor blade. In 2000 rpm hover (tip Mach 0.47), at 2 deg. collective, and for an actuation of 150 V(rms), the measured blade tip deflection (pitch angle relative to the main blade) at the first four rotor harmonics is between +/-2.1 and +/-2.9 deg., increasing to +/-5.7 deg. at 5/rev with resonant amplification. These blade tip deflections generate respective oscillatory rotor thrust coefficients between 0.9x10(exp-3) and 1.6x10(exp-3) at the first four rotor harmonics, increasing to 2.2x10(exp-3) at 5/rev (single blade tip actuation). The corresponding thrust authority is 19, 13, 23, 19 and 33% at the first 5 rotor harmonics (normalized with respect to steady thrust at nominal 8 deg. collective, 378 N). The analytic model predicts the 150 V(rms) relative blade tip pitch angle and associated change in rotor thrust within 12% at the first five rotor harmonics (except at 4/rev where the model predicts more). The active blade tip rotor was also used as a test-bed for the evaluation of an adaptive neural-network based control algorithm. Effective reduction of 1/rev hover imbalance hub loads was demonstrated. In addition, the controller was used to generate desired multi-frequency control loads on the hub, based on artificial signal injection into the vibration measurement. The research program demonstrates the technical feasibility of the active blade tip concept for vibration reduction and warrants further investigation in terms of closed loop forward flight tests in the wind tunnel and full scale design studies.


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    Titel :

    Hover test of a Mach-scale rotor model with active blade tips


    Weitere Titelangaben:

    Schwebtest eines Mach-skalierten Rotormodells mit aktiven Flügelblattspitzen


    Beteiligte:
    Bernhard, A.P.F. (Autor:in) / Chopra, I. (Autor:in)

    Erschienen in:

    Erscheinungsdatum :

    2002


    Format / Umfang :

    12 Seiten, 21 Bilder, 2 Tabellen, 27 Quellen




    Medientyp :

    Aufsatz (Zeitschrift)


    Format :

    Print


    Sprache :

    Englisch




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    Mach-scale design of a rotor-model with active blade tips

    Bernhard, A.P.F. / Chopra, I. | Tema Archiv | 1999


    Design and Hover Test of Low Vibration Mach Scale Rotor with Twisted Composite Tailored Blade

    Bao, Jinsong / Nagaraj, V.T. / Chopra, Inderjit et al. | AIAA | 2003


    Hover Test of Mach-Scale Active Twist Rotor Using Piezo-BendingTorsion Actuators

    Andreas P. F. Bernhard / Inderjit Chopra | AIAA | 2002


    Design and Hover Test of Low Vibration Mach Scale Rotor with Twisted Composite Tailored Blade

    Bao, J. / Nagaraj, V. / Chopra, I. et al. | British Library Conference Proceedings | 2003