Add to ORKGThe packaging of metal wool for reusable thermal heat shields applied to aerodynamic and other surfaces for the space shuttle was analyzed and designed, and samples were fabricated and experimentally studied. Parametric trends were prepared for selected configurations. An all-metal thermally efficient, reliable, reusable and producible heat shield system was designed and structurally tested for use on spacecraft aerodynamic surfaces where temperatures do not exceed 810 K. Stainless steel sheet, primarily for structure and secondarily in the transverse plane for thermal expansion, was shown to accommodate thermal expansion in all directions when restrained at the edges and heated to 1360 K. Aerodynamic loads of 0.35 x 1000,000 newtons/sq met...
The results obtained in a program to evaluate dispersion-strengthened nickel-base alloys for use in ...
A metallic thermal protection system (TPS) concept the multiwall designed for temperature and pressu...
Spacecraft employing solar dynamic power systems typically use parabolic, point focus concentrators ...
The characteristics and development of a lightweight reusable thermal protection system for the spac...
A three-phase program to develop and demonstrate the feasibility of a metallic heat shield suitable ...
Thermal protection systems for large reentry vehicles, such as a Space Shuttle booster or orbiter, c...
Results are presented of a two year program to evaluate packaged thermal insulations for use under a...
Reusable surface insulation materials, which were developed as heat shields for the space shuttle, w...
Spacecraft entering a planetary atmosphere require a very sophisticated thermal protection system. T...
A program was conducted to develop a lightweight, efficient metallic thermal protection system (TPS)...
The design and assessment of reusable surface insulation (RSI), metallic stand off and multiwall the...
Exploratory tests have been conducted with several conceptual radiative heat shields of composite co...
Ablator heat shield configuration optimization studies were conducted for the orbiter. Ablator and r...
The development of thermal protection systems (TPS) for aerospace vehicles involves combining materi...
Several different types of insulating heat shields have been subjected to aerodynamic tests and radi...
The results obtained in a program to evaluate dispersion-strengthened nickel-base alloys for use in ...
A metallic thermal protection system (TPS) concept the multiwall designed for temperature and pressu...
Spacecraft employing solar dynamic power systems typically use parabolic, point focus concentrators ...
The characteristics and development of a lightweight reusable thermal protection system for the spac...
A three-phase program to develop and demonstrate the feasibility of a metallic heat shield suitable ...
Thermal protection systems for large reentry vehicles, such as a Space Shuttle booster or orbiter, c...
Results are presented of a two year program to evaluate packaged thermal insulations for use under a...
Reusable surface insulation materials, which were developed as heat shields for the space shuttle, w...
Spacecraft entering a planetary atmosphere require a very sophisticated thermal protection system. T...
A program was conducted to develop a lightweight, efficient metallic thermal protection system (TPS)...
The design and assessment of reusable surface insulation (RSI), metallic stand off and multiwall the...
Exploratory tests have been conducted with several conceptual radiative heat shields of composite co...
Ablator heat shield configuration optimization studies were conducted for the orbiter. Ablator and r...
The development of thermal protection systems (TPS) for aerospace vehicles involves combining materi...
Several different types of insulating heat shields have been subjected to aerodynamic tests and radi...
The results obtained in a program to evaluate dispersion-strengthened nickel-base alloys for use in ...
A metallic thermal protection system (TPS) concept the multiwall designed for temperature and pressu...
Spacecraft employing solar dynamic power systems typically use parabolic, point focus concentrators ...