Add to ORKGA study was conducted to determine methodology for combining thermal structural loads and assessing the effects of the combined loads on the design of a thermal protection system and a hot structure of a high cross range delta wing space shuttle orbiter vehicle. The study presents guidelines for establishing a basis for predicting thermal and pressure environments and for determining limit and ultimate design loads on the vehicle during reentry. Limit trajectories were determined by using dispersions on a representative nominal mission and system parameters expected during the life of the vehicle. Nine chosen locations on the vehicle surface having TPS or hot structures were examined, and weight sensitivity analyses were performed for each ...
A finite element approach for efficient thermal-structural analysis of structures with thermal prote...
Shielding a spacecraft from the severe thermal environment of an atmospheric entry requires a sophis...
The characteristics and development of a lightweight reusable thermal protection system for the spac...
An investigation was conducted to determine the influence of combined loading criteria on the space ...
Computational techniques were developed and assimilated for the design optimization. The resulting c...
Some thermal dynamic requirements associated with the space shuttle vehicle are reviewed. Pertinent ...
Ablator heat shield configuration optimization studies were conducted for the orbiter. Ablator and r...
A modular program for design optimization of thermal protection systems is discussed. Its capabiliti...
Alternate thermal protection system (TPS) concepts to the Space Shuttle Orbiter were assessed. Metal...
The results are reported of research to provide thermal support in the design of the thermal protect...
The development of the computational techniques for the design optimization of thermal protection sy...
The major material and design challenges associated with the orbiter thermal protection system (TPS)...
The space shuttle development program provided the opportunity to challenge many of the established ...
A finite element approach for efficient thermal-structural analysis of structures with thermal prote...
A three-phase program to develop and demonstrate the feasibility of a metallic heat shield suitable ...
A finite element approach for efficient thermal-structural analysis of structures with thermal prote...
Shielding a spacecraft from the severe thermal environment of an atmospheric entry requires a sophis...
The characteristics and development of a lightweight reusable thermal protection system for the spac...
An investigation was conducted to determine the influence of combined loading criteria on the space ...
Computational techniques were developed and assimilated for the design optimization. The resulting c...
Some thermal dynamic requirements associated with the space shuttle vehicle are reviewed. Pertinent ...
Ablator heat shield configuration optimization studies were conducted for the orbiter. Ablator and r...
A modular program for design optimization of thermal protection systems is discussed. Its capabiliti...
Alternate thermal protection system (TPS) concepts to the Space Shuttle Orbiter were assessed. Metal...
The results are reported of research to provide thermal support in the design of the thermal protect...
The development of the computational techniques for the design optimization of thermal protection sy...
The major material and design challenges associated with the orbiter thermal protection system (TPS)...
The space shuttle development program provided the opportunity to challenge many of the established ...
A finite element approach for efficient thermal-structural analysis of structures with thermal prote...
A three-phase program to develop and demonstrate the feasibility of a metallic heat shield suitable ...
A finite element approach for efficient thermal-structural analysis of structures with thermal prote...
Shielding a spacecraft from the severe thermal environment of an atmospheric entry requires a sophis...
The characteristics and development of a lightweight reusable thermal protection system for the spac...