Light Weight Ablator Response Model Development and Challenges
2014
32 pages
Report
No indication
English
Unmanned Spacecraft , Manned Spacecraft , Fluid Mechanics , Ablation , Ablative materials , Thermal protection , Heat shielding , Pyrolysis , High temperature , Carbon-phenolic composites , Mathematical models , Porous materials , Hypersonic reentry , Hypersonic flow , Heat transfer , Spalling , Performance tests , Performance prediction , Computational fluid dynamics , Computer aided tomography , Nasa space programs