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W1993579976 abstract "This paper explores cantilevered beam flutter for both clamped and pinned leading edge boundary conditions. Specifically, a three-dimensional vortex lattice panel method is coupled with a classical Lagrangian one-dimensional beam structural model to predict the linear flutter boundary for finite size rectangular plates. The paper explores the change in flutter characteristics as a function of the fluid to structure mass ratio and the structural aspect ratio. The paper also presents an exploration of the non-monotonic transition in flutter velocity between the pinned-free and clamped-free boundary conditions which is modeled using a leading edge torsional spring. The theoretical results are compared to vibration and aeroelastic test results collected in the Duke University wind tunnel as well as previous theoretical and experimental results for the leading edge clamped configuration. The aeroelastic experiments confirmed the validity of the three-dimensional vortex lattice aerodynamic model over a subset of mass ratios." @default.
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W1993579976 date "2012-10-01" @default.
W1993579976 modified "2023-10-18" @default.
W1993579976 title "Theory and experiment for flutter of a rectangular plate with a fixed leading edge in three-dimensional axial flow" @default.
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W1993579976 doi "https://doi.org/10.1016/j.jfluidstructs.2012.06.009" @default.
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