论文信息 - An analytical technique for predicting the characteristics of a flexible wing equipped with an active flutter-suppression system and comparison with wind-tunnel data

An analytical technique for predicting the characteristics of a flexible wing equipped with an active flutter-suppression system and comparison with wind-tunnel data

An analytical technique for predicting the performance of an active flutter-suppression system is presented. This technique is based on the use of an interpolating function to approximate the unsteady aerodynamics. The resulting equations are formulated in terms of linear, ordinary differential equations with constant coefficients. This technique is then applied to an aeroelastic model wing equipped with an active flutter-suppression system. Comparisons between wind-tunnel data and analysis are presented for the wing both with and without active flutter suppression. Results indicate that the wing flutter characteristics without flutter suppression can be predicted very well but that a more adequate model of wind-tunnel turbulence is required when the active flutter-suppression system is used.

I. Abel | I. Abel

[1] R. Vepa,et al. On the use of Pade approximants to represent unsteady aerodynamic loads for arbitrarily small motions of wings , 1976 .

[2] E. Nissim,et al. Development and application of an optimization procedure for flutter suppression using the aerodynamic energy concept , 1978 .

[3] Francis D Sevart,et al. Development of Active Flutter Suppression Wind Tunnel Testing Technology , 1975 .

[4] E. ALBANO,et al. A doublet-lattice method for calculating lift distributions on oscillating surfaces in subsonic flows. , 1969 .

[5] J. Edwards. Unsteady aerodynamic modeling and active aeroelastic control , 1977 .

[6] K. G. Pratt. Response of flexible airplanes to atmospheric turbulence , 1971 .

[7] K. L. Roger,et al. Airplane Math Modeling Methods for Active Control Design , 1977 .