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NASA NTRS · Conference Paper

Incipient torsional stall flutter aerodynamic experiments on a swept three-dimensional wing

Published 2019-07-12 From Legacy CDMS 2 authors

Attribution

This is the abstract and citation. Full text lives at NASA NTRS — we link out rather than host. All credit to the authors and Legacy CDMS.

Abstract

Verbatim from NASA NTRS. Not paraphrased, not summarized.

The aerodynamics of small amplitude pitching motions near stall have been studied experimentally in order to improve understanding of the torsional stall flutter problem for propeller blades. A model wing was oscillated in pitch at several small amplitudes over a wide and representative range of conditions. Unsteady surface pressures were measured and integrated to determine the aerodynamic damping at five spanwise stations. Strong negative damping was found for motions centered near static stall for all studied reduced frequencies, Mach numbers, and sweep angles. The 30-deg sweptback configuration was found to become negatively damped over the entire span nearly simultaneously, while the unswept model exhibited local regions of negative damping that moved toward the wing tip as the mean angle of attack was increased.

Authors

  • Lorber, Peter F. United Technologies Research Center
  • Carta, Franklin O. United Technologies Research Center

Citation: Lorber, Peter F., Carta, Franklin O. (2019). Incipient torsional stall flutter aerodynamic experiments on a swept three-dimensional wing. Legacy CDMS. NASA NTRS ID 19910047382. https://ntrs.nasa.gov/citations/19910047382 ↗