A Two-Dimensional Aerofoil with a Control Surface Oscillating at Low Frequency in High Subsonic Flow-Reference-Cited by-同舟云学术

A Two-Dimensional Aerofoil with a Control Surface Oscillating at Low Frequency in High Subsonic Flow

Published:1974-08 Issue:3 Volume:25 Page:186-198
ISSN:0001-9259
Container-title:Aeronautical Quarterly
language:en
Short-container-title:Aeronautical Quarterly

Author:

Nixon D

Abstract

SummaryThe aerodynamic derivatives for a two-dimensional aerofoil with an oscillating control surface in a high subcritical flow are calculated using the method of Nixon. The aerofoil is assumed to be symmetric and at zero incidence with a zero mean control surface deflection angle. With the exception of the control surface stiffness derivative the magnitudes of the aerodynamic derivatives are greater than the corresponding linear values by between 15–35 per cent; the greatest difference occurs for low values of the frequency parameter. The magnitude of the control surface stiffness derivative is less than the corresponding linear value by the order 10–15 per cent.

Publisher

Cambridge University Press (CUP)

Subject

General Engineering

Reference4 articles.

1. High subsonic flow past a steady two-dimensional aerofoil;Nixon;ARC Current,1974

2. The high subsonic flow around a two-dimensional aerofoil with a trailing-edge control surface;Nixon;Aeronautical Quarterly,1973

3. Die Luftkrafte des harmonisch schwingenden Flugels in kompressiblen Medium bei Unterschallgeschwindigkeit;Dietze;DVL Forschungsbericht 1733,1943

4. A two-dimensional aerofoil oscillating at low frequency in high subsonic flow;Nixon;ARC Current,1974

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