Centaur engine gimbal friction characteristics under simulated thrust load
Abstract
An investigation was performed to determine the friction characteristics of the engine gimbal system of the Centaur upper stage rocket. Because the Centaur requires low-gain autopilots in order to meet all stability requirements for some configurations, control performance (response to transients and limit-cycle amplitudes) depends highly on these friction characteristics. Forces required to rotate the Centaur engine gimbal system were measured under a simulated thrust load of 66,723 N (15,000 lb) and in an altitude/thermal environment. A series of tests was performed at three test conditions; ambient temperature and pressure, ambient temperature and vacuum, and cryogenic temperature and vacuum. Gimbal rotation was controlled, and tests were performed in which rotation amplitude and frequency were varied by using triangular and sinusoidal waveforms. Test data revealed an elastic characteristic of the gimbal, independent of the input signal, which was evident prior to true gimbal sliding. The torque required to initiate gimbal sliding was found to decrease when both pressure and temperature decreased. Results from the low amplitude and low frequency data are currently being used in mathematically modeling the gimbal friction characteristics for Centaur autopilot performance studies.
- Publication:
-
NASA STI/Recon Technical Report N
- Pub Date:
- September 1986
- Bibcode:
- 1986STIN...8631621A
- Keywords:
-
- Automatic Pilots;
- Centaur Launch Vehicle;
- Environmental Tests;
- Friction Factor;
- Gimbals;
- Thrust Loads;
- Thrust Vector Control;
- Upper Stage Rocket Engines;
- Altitude Simulation;
- Kinetic Friction;
- Low Temperature Tests;
- Mathematical Models;
- Rotation;
- Servocontrol;
- Launch Vehicles and Space Vehicles