A radiant heating test facility for space shuttle orbiter thermal protection system certification
A large scale radiant heating test facility was constructed so that thermal certification tests can be performed on the new generation of thermal protection systems developed for the space shuttle orbiter. This facility simulates surface thermal gradients, onorbit cold-soak temperatures down to 200 K, entry heating temperatures to 1710 K in an oxidizing environment, and the dynamic entry pressure environment. The capabilities of the facility and the development of new test equipment are presented.
Related Space Shuttle Documents
A Compilation of Space Shuttle Sonic Boom Measurements
Sonic boom measurements have been obtained on 26 flights of the Space Shuttle system beginning with the launch of STS-1 on April 12, 1981, to the reentry-descent of STS-41 into EAFB on Oct. 10, 1990.
A high angle of attack inviscid shuttle orbiter computation
As a preliminary step toward predicting the leeside thermal environment for winged reentry vehicles at flight conditions, a computational solution for the flow about the Shuttle Orbiter at wind tunnel
A state-of-the-art literature survey of thoria-dispersed NiCr for the space shuttle thermal protection systems
Production engineering and chemical, mechanical, and thermodynamic properties of thoria dispersed nickel chrome alloys for space shuttle thermal protection applications