Add to ORKGHeat transfer was measured on a space shuttle-tank configuration with no mated orbiter in place and with the orbiter in 10 different mated positions. The orbiter-tank combination was tested at angles of attack of 0 deg and 5 deg, at a Mach number of 10.3, and at a free-stream Reynolds number of one million based on the length of the tank. Comparison of interference heat transfer with no-interference heat transfer shows that shock interference can increase the heat transfer to the tank by two orders of magnitude along the ray adjacent to the orbiter and can cause high temperature gradients along the tank skin. The relative axial location of the two mated vehicles determined the location of the sharp peaks of extreme heating as well as their ...
Results are presented for oil flow and phase change paint heat transfer tests conducted on a 0.006 s...
This paper gives a summary of dedicated experiments on the shock interaction induced heat flux augme...
Measurements of mutual interference heating for probe antenna mounted on Apollo reentry configuratio
The collection and analysis of aerodynamic heating data obtained from shock impingement experimental...
The results of an experimental study of off-center-line shock-interference heating on basic shapes a...
The aerodynamic heating of a tip-fin controller mounted on a Space Shuttle Orbiter model was studied...
The convective heat transfer distribution for space shuttle configurations is discussed. The viscous...
An experimental investigation was conducted on space shuttle type, body-wing configurations. The pur...
An analytical and experimental study is presented of the aerodynamic heating resulting from six type...
An experimental study of shock wave interference heating on a cylindrical leading edge representativ...
When a vehicle travels at hypersonic speeds during launch, cruise or atmospheric re-entry it is sub...
Model information and data obtained from wind tunnel tests performed on a 0.006 scale model of the R...
Model information and data are presented from wind tunnel tests conducted on 0.01-scale models of th...
An experimental investigation of interference heating resulting from interactions of shock waves and...
Heat-transfer rates have been measured in free flight along the stagnation line of an unswept cylind...
Results are presented for oil flow and phase change paint heat transfer tests conducted on a 0.006 s...
This paper gives a summary of dedicated experiments on the shock interaction induced heat flux augme...
Measurements of mutual interference heating for probe antenna mounted on Apollo reentry configuratio
The collection and analysis of aerodynamic heating data obtained from shock impingement experimental...
The results of an experimental study of off-center-line shock-interference heating on basic shapes a...
The aerodynamic heating of a tip-fin controller mounted on a Space Shuttle Orbiter model was studied...
The convective heat transfer distribution for space shuttle configurations is discussed. The viscous...
An experimental investigation was conducted on space shuttle type, body-wing configurations. The pur...
An analytical and experimental study is presented of the aerodynamic heating resulting from six type...
An experimental study of shock wave interference heating on a cylindrical leading edge representativ...
When a vehicle travels at hypersonic speeds during launch, cruise or atmospheric re-entry it is sub...
Model information and data obtained from wind tunnel tests performed on a 0.006 scale model of the R...
Model information and data are presented from wind tunnel tests conducted on 0.01-scale models of th...
An experimental investigation of interference heating resulting from interactions of shock waves and...
Heat-transfer rates have been measured in free flight along the stagnation line of an unswept cylind...
Results are presented for oil flow and phase change paint heat transfer tests conducted on a 0.006 s...
This paper gives a summary of dedicated experiments on the shock interaction induced heat flux augme...
Measurements of mutual interference heating for probe antenna mounted on Apollo reentry configuratio