New Flutter Analysis Technique for Time-Domain Computational Aeroelasticity | Zendy

Chan-gi Pak | Zendy; Shun-Fat Lung | Zendy

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New Flutter Analysis Technique for Time-Domain Computational Aeroelasticity

Author(s) -

Chan-gi Pak,

Shun-Fat Lung

Publication year - 2017

Publication title -

56th aiaa/asce/ahs/asc structures, structural dynamics, and materials conference

Language(s) - English

Resource type - Conference proceedings

DOI - 10.2514/6.2017-0856

Subject(s) - aeroelasticity , flutter , computer science , time domain , aerodynamics , aerospace engineering , engineering , computer vision

A new time-domain approach for computing flutter speed is presented. Based on the timehistory result of aeroelastic simulation, the unknown unsteady aerodynamics model is estimated using a system identification technique. The full aeroelastic model is generated via coupling the estimated unsteady aerodynamic model with the known linear structure model. The critical dynamic pressure is computed and used in the subsequent simulation until the convergence of the critical dynamic pressure is achieved. The proposed method is applied to a benchmark cantilevered rectangular wing.

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