Procedures and methods for predicting aerothermodynamic heating to delta orbiter shuttle vehicles were reviewed. A number of approximate methods were found to be adequate for large scale parameter studies, but are considered inadequate for final design calculations. It is recommended that final design calculations be based on a computer code which accounts for nonequilibrium chemistry, streamline spreading, entropy swallowing, and turbulence. It is further recommended that this code be developed with the intent that it can be directly coupled with an exact inviscid flow field calculation when the latter becomes available. A nonsimilar, equilibrium chemistry computer code (BLIMP) was used to evaluate the effects of entropy swallowing, turbul...
The lee-surface flow phenomena on a delta-wing orbiter and a straight-wing orbiter have been investi...
Correlations of orbiter windward surface entry heating data from the first five flights are presente...
Design of an efficient thermal protection system for the space shuttle orbiter and booster is discus...
The research for determining the space shuttle aerothermal environment is reported. Brief summaries ...
Aerothermodynamic development flight test data from the first orbital flight test of the Space Trans...
The Space Shuttle orbiter's thermal protection system (TPS), designed mainly on the basis of wind tu...
As a preliminary step toward predicting the leeside thermal environment for winged reentry vehicles ...
Quantitative estimates of the uncertainty in predicting aerodynamic heating rates for a fully reusab...
A relatively simple method is presented for including the effect of variable entropy at the boundary...
Conference on aerodynamic heat transfer in space shuttle configurations and procedures and technique...
Flow fields were computed about blunted, 0.524 and 0.698 radians, cone configurations to assess the ...
A broad base of thermocouple and phase change paint data was assembled and correlated to the nominal...
The collection and analysis of aerodynamic heating data obtained from shock impingement experimental...
A structural performance and resizing finite element thermal analysis computer program was used in t...
The objective was to verify the design thermal environments for the Space Shuttle External Tank. The...
The lee-surface flow phenomena on a delta-wing orbiter and a straight-wing orbiter have been investi...
Correlations of orbiter windward surface entry heating data from the first five flights are presente...
Design of an efficient thermal protection system for the space shuttle orbiter and booster is discus...
The research for determining the space shuttle aerothermal environment is reported. Brief summaries ...
Aerothermodynamic development flight test data from the first orbital flight test of the Space Trans...
The Space Shuttle orbiter's thermal protection system (TPS), designed mainly on the basis of wind tu...
As a preliminary step toward predicting the leeside thermal environment for winged reentry vehicles ...
Quantitative estimates of the uncertainty in predicting aerodynamic heating rates for a fully reusab...
A relatively simple method is presented for including the effect of variable entropy at the boundary...
Conference on aerodynamic heat transfer in space shuttle configurations and procedures and technique...
Flow fields were computed about blunted, 0.524 and 0.698 radians, cone configurations to assess the ...
A broad base of thermocouple and phase change paint data was assembled and correlated to the nominal...
The collection and analysis of aerodynamic heating data obtained from shock impingement experimental...
A structural performance and resizing finite element thermal analysis computer program was used in t...
The objective was to verify the design thermal environments for the Space Shuttle External Tank. The...
The lee-surface flow phenomena on a delta-wing orbiter and a straight-wing orbiter have been investi...
Correlations of orbiter windward surface entry heating data from the first five flights are presente...
Design of an efficient thermal protection system for the space shuttle orbiter and booster is discus...