2004
DOI: 10.4050/jahs.49.414
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Rotor Dynamic Wake Distortion Model for Helicopter Maneuvering Flight

Abstract: Combined effect of main rotor wake distortion and main rotor/tail rotor/empennage interaction on the on-axis roll rate response of a UH-60 Black Hawk helicopter at 40 knots flight speed to the lateral cyclic control stick doublet input of Figure 3.

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Cited by 27 publications
(39 citation statements)
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“…This observation is in agreement with typical trends reported by other investigators (Ref. 26). A small improvement in the on-axis response can also be observed in Fig.…”
Section: Nonlinear Response To Pilot Control Inputssupporting
confidence: 94%
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“…This observation is in agreement with typical trends reported by other investigators (Ref. 26). A small improvement in the on-axis response can also be observed in Fig.…”
Section: Nonlinear Response To Pilot Control Inputssupporting
confidence: 94%
“…12,13), a dynamic wake distortion model (Ref. 26), and an unsteady nonlinear blade element aerodynamics model (Ref. 27).…”
Section: -3mentioning
confidence: 99%
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“…This is due to the fact that the dominant physical phenomena associated with rotor dynamics [4], inflow dynamics [27], unsteady nonlinear aerodynamics [29], and dynamic wake distortion [30] are all included in the analysis. It can thus be con cluded that the proposed rotor model can be deployed for the extraction of equivalent dynamic response time-delays from first principles, without any empiricism involved.…”
Section: Transient Rotor Response To Control Inputsmentioning
confidence: 99%
“…The developed mathematical approach is coupled numerically with the Peters-He finite-state induced flow model [27,28], the LeishmanBeddoes unsteady nonlinear blade element aerodynamics model [29], and the Zhao-Prasad dynamic wake distortion model [30], The rotor blade's natural vibration characteristics obtained from the Lagrangian formulation are utilized. The dynamic response of the elastic blades to external aerodynamic and inertial forcing is calculated using a fifth order accurate numerical evaluation scheme of the convolution integral.…”
Section: Integrated Aero-elastic Rotor-fuselage Modelmentioning
confidence: 99%