On a finite-state inflow application to flap-lag-torsion damping in hoverAn aerodynamic model with a coupled set of generalized dynamic wake equations and hybrid equations of motion for an elastic blade are applied here to a two-blade untwisted stiff in-plane hingeless small-scale model rotor with torsionally soft blades. Blade root offset, precone, blade droop, pitch control stiffness, and blade pitch angle are included in the model rotor. Numerical results show that 3D tip relief effects within the nonuniform steady-state inflow are significant to predict steady-state aerodynamic loads and blade deflections. Eigenvalue results confirm the importance of unsteady 3D aerodynamics in predicting lead-lag damping and frequency. Eigenvector analysis correlations reinforced qualitative and quantitative shortcomings associated with quasi-steady 2D aerodynamic theory for aeroelastic applications in hover.
Document ID
19940035406
Acquisition Source
Legacy CDMS
Document Type
Conference Paper
Authors
De Andrade, Donizeti (Inst. Tecnologico de Aeronautica Sao Jose dos Campos, Brazil)
Peters, David A. (Washington Univ. Saint Louis, MO, United States)