With current tilt-rotor technology, very stiff, thick wings of limited aspect ratio are essential to meet aeroelastic stability requirements, which severely limits cruise efficiency and maximum speed. Larger and more efficient tiltrotors; will need longer and lighter wings, for which whirl-mode flutter is a serious design issue. Numerous approaches to improving the whirl-mode airspeed boundary have been investigated, typically focusing on wing design, active stability augmentation, and variable geometry rotors. The research to be reported applies the much simpler approaches of sweeping the outboard blade sections and extending balance weights at the tip. Improving proprotor whirl-mode stability margins is an ongoing research activity at NASA Ames Research Center. Previous efforts focussed on the XV-15 rotor. This is the first application of these design principles to a full V-22 rotor model in CAMRAD II (a previous publication presented results for a preliminary analytical model). The analysis to be discussed in the proposed paper includes a dual load-path blade model, a compressible-flow aerodynamic model, a representation of swashplate/rotor modal coupling, and other new features. The paper will include discussions of the mechanisms by which blade sweep and tip-mass offsets improve whirl-flutter margins. The V-22 was modeled with CAMRAD II; the rotor model is shown. It is also shows an example swept blade derived from the V-22 rotor system. For this rotor, the primary significance of sweep is the improved whirl-flutter boundary, not the reduced Mach-number effects. An offset tip mass is also shown.


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    Title :

    Rotor Design Options for Improving V-22 Whirl-Mode Stability


    Contributors:

    Conference:

    American Helicopter Society International Forum ; 2002 ; Montreal, Canada


    Publication date :

    2001-01-01


    Type of media :

    Conference paper


    Type of material :

    No indication


    Language :

    English





    Rotor design options for improving tiltrotor whirl-flutter stability margins

    Acree, C.W. jun. / Peyran, R.J. / Johnson, W. | Tema Archive | 2001


    Improving Tiltrotor Whirl-Mode Stability with Rotor Design Variations

    J. C. Acree / R. J. Peyran / W. Johnson | NTIS | 2000


    Rotor design options for improving XV-15 whirl-flutter stability margins

    Acree, C. W. / Peyran, R. J. / Johnson, Wayne | TIBKAT | 2004