Ground testing is the key element for the development of thermal protection systems (TPS) and hot structures (HS) of space vehicles. Since one type of ground testing facility does not allow a complete simulation of the flight environment, DLR Windtunnel Department has developed a complementary test approach for the qualification and characterisation of TPS and HS components. This paper describes this approach with recent experimental results on key aerothermal issues like boundary layer transition, gap heating, shear stress effects, active/passive oxidation, surface catalysis, radiative cooling and intensified material recession due to particle presence in high enthalpy flows
The thermo-mechanical behaviour of highly loaded components of space vehicles, as e.g. nosecaps and ...
The main objectives of the IXV mission were to test thermal protection and hot structures, test a wi...
The current status of aerothermal and thermal protection system modeling for civilian entry missions...
Aerothermal heating and thermal protection of spacecraft are main challenges of hypersonic flights. ...
Space vehicles are subjected to severe heat loads when entering a planetary atmosphere and require a...
The Entry, Descent, and Landing (EDL) Technology Development Project has been tasked to develop Ther...
Space vehicles are subjected to severe heat loads when entering a planetary atmosphere and require a...
High temperature testing of thermal protection system (TPS) materials is a critical aspect of heat-s...
The design of hypersonic flight systems requires extensive ground testing to understand the flow cha...
Planetary entry vehicles employ ablative TPS materials to shield the aeroshell from entry aeroheatin...
The interpretation of results obtained in ground test facilities needs a detailed knowledge of the f...
An array of metallic Thermal Protection System (TPS) panels developed for the windward surface of th...
Planetary entry vehicles employ ablative TPS materials to shield the aeroshell from entry aeroheatin...
The precise experimental determination of the heat loads acting on vehicles traveling at hypersonic ...
Flying at hypersonic Machnumbers using airbreathing propulsion requires highly sophisticated design ...
The thermo-mechanical behaviour of highly loaded components of space vehicles, as e.g. nosecaps and ...
The main objectives of the IXV mission were to test thermal protection and hot structures, test a wi...
The current status of aerothermal and thermal protection system modeling for civilian entry missions...
Aerothermal heating and thermal protection of spacecraft are main challenges of hypersonic flights. ...
Space vehicles are subjected to severe heat loads when entering a planetary atmosphere and require a...
The Entry, Descent, and Landing (EDL) Technology Development Project has been tasked to develop Ther...
Space vehicles are subjected to severe heat loads when entering a planetary atmosphere and require a...
High temperature testing of thermal protection system (TPS) materials is a critical aspect of heat-s...
The design of hypersonic flight systems requires extensive ground testing to understand the flow cha...
Planetary entry vehicles employ ablative TPS materials to shield the aeroshell from entry aeroheatin...
The interpretation of results obtained in ground test facilities needs a detailed knowledge of the f...
An array of metallic Thermal Protection System (TPS) panels developed for the windward surface of th...
Planetary entry vehicles employ ablative TPS materials to shield the aeroshell from entry aeroheatin...
The precise experimental determination of the heat loads acting on vehicles traveling at hypersonic ...
Flying at hypersonic Machnumbers using airbreathing propulsion requires highly sophisticated design ...
The thermo-mechanical behaviour of highly loaded components of space vehicles, as e.g. nosecaps and ...
The main objectives of the IXV mission were to test thermal protection and hot structures, test a wi...
The current status of aerothermal and thermal protection system modeling for civilian entry missions...