Comparison of X-31 Flight and Ground-based Yawing Moment Asymmetries at High Angles of Attack
Title | Comparison of X-31 Flight and Ground-based Yawing Moment Asymmetries at High Angles of Attack PDF eBook |
Author | Brent R. Cobleigh |
Publisher | |
Pages | 20 |
Release | 2001 |
Genre | Angle of attack (Aerodynamics) |
ISBN |
השקיות ויחסי פריחה-נשירה בכותנה
Title | השקיות ויחסי פריחה-נשירה בכותנה PDF eBook |
Author | |
Publisher | |
Pages | |
Release | 1966 |
Genre | |
ISBN |
COMPARISON OF X-31 FLIGHT AND GROUND-BASED YAWING MOMENT ASYMMETRIES AT HIGH ANGLES OF ATTACK... NASA/TM-2001-210393... AUG. 16, 2001
Title | COMPARISON OF X-31 FLIGHT AND GROUND-BASED YAWING MOMENT ASYMMETRIES AT HIGH ANGLES OF ATTACK... NASA/TM-2001-210393... AUG. 16, 2001 PDF eBook |
Author | |
Publisher | |
Pages | |
Release | 2002 |
Genre | |
ISBN |
High-Angle-Of-Attack Yawing Moment Asymmetry of the X-31 Aircraft from Flight Test
Title | High-Angle-Of-Attack Yawing Moment Asymmetry of the X-31 Aircraft from Flight Test PDF eBook |
Author | National Aeronautics and Space Administration (NASA) |
Publisher | Createspace Independent Publishing Platform |
Pages | 36 |
Release | 2018-07-05 |
Genre | |
ISBN | 9781722274597 |
Significant yawing moment asymmetries were encountered during the high-angle-of-attack envelope expansion of the two X-31 aircraft. These asymmetries led to position saturations of the thrust vector vanes and trailing-edge flaps during some of the dynamic stability axis rolling maneuvers at high angles of attack. This slowed the high-angle-of-attack envelope expansion and resulted in maneuver restrictions. Several aerodynamic modifications were made to the X-31 forebody with the goal of minimizing the asymmetry. A method for determining the yawing moment asymmetry from flight data was developed and an analysis of the various configuration changes completed. The baseline aircraft were found to have significant asymmetries above 45 deg angle of attack with the largest asymmetry typically occurring around 60 deg angle of attack. Applying symmetrical boundary layer transition strips along the forebody sides increased the magnitude of the asymmetry and widened the angle-of-attack range over which the largest asymmetry acted. Installing longitudinal forebody strakes and rounding the sharp nose of the aircraft caused the yawing moment asymmetry magnitude to be reduced. The transition strips and strakes made the asymmetry characteristic of the aircraft more repeatable than the clean forebody configuration. Although no geometric differences between the aircraft were known, ship 2 consistently had larger yawing moment asymmetries than ship 1. Cobleigh, Brent R. Unspecified Center RTOP 533-02-00...
Scientific and Technical Aerospace Reports
Title | Scientific and Technical Aerospace Reports PDF eBook |
Author | |
Publisher | |
Pages | 704 |
Release | 1995 |
Genre | Aeronautics |
ISBN |
High-angle-of-attack Yawing Moment Asymmetry of the X-31 Aircraft from Flight Test
Title | High-angle-of-attack Yawing Moment Asymmetry of the X-31 Aircraft from Flight Test PDF eBook |
Author | |
Publisher | |
Pages | 40 |
Release | 1994 |
Genre | |
ISBN |
Reynolds Number Effects at High Angles of Attack
Title | Reynolds Number Effects at High Angles of Attack PDF eBook |
Author | David F. Fisher |
Publisher | |
Pages | 38 |
Release | 1998 |
Genre | Airplanes, Military |
ISBN |
Lessons learned from comparision between ground-based tests and flight measurements for the high-angle-of-attack programs on the F-18 High Alpha Research Vehicle (HARV), the X-29 forward-swept wing aircraft, and the X-31 enhanced fighter maneuverability aircraft are presented. On all three vehicles, Reynolds number effects were evident on the forebodies at high angles of attack. The correlation between flight and wind tunnel forebody pressure distributions for the F-18 HARV were improved by using twin longitudinal grit strips on the forebody of the wind-tunnel model. Pressure distributions obtained on the X-29 wind-tunnel model at flight Reynolds numbers showed excellent correlation with the flight data up to [alpha]=50 deg. Above [alpha]=50 deg. the pressure distributions for both flight and wind tunnel became asymmetric and showed poorer agreement, possibly because of the different surface finish of the model and aircraft. The detrimental effect of a very sharp nose apex was demonstrated on the X-31 aircraft. Grit strips on the forebody of the X-31 reduced the randomness but increased the magnitude of the asymmetry. Nose strakes were required to reduce the forebody yawing moment asymmetries and the grit strips on the flight test noseboom improved the aircraft.