Add to ORKGCarbon-phenolic material consisting of 50 percent carbon fibers and 50 percent phenolic resin was flight tested on a recoverable spacecraft launched by the Pacemaker vehicle system. The heat shield of the spacecraft was fabricated so that the carbon fibers in the ablator material had different orientations over several areas of the spacecraft. The environment in which the spacecraft was tested produced heating rates on the hemispherical nose up to 13.6 MW/sq m (1200 Btu/sq ft/sec) and stagnation-point pressures up to 1.27 MN/sq m (12.5 atm). The experimental results are presented. Due to high heating rates and possible spallation and mechanical char removal the greatest mass loss occurred in the nose region. Essentially uniform surface rece...
Ablation and temperature data for Apollo heat shield material using Pacemaker vehicle for flight tes
The oxidation at high Knudsen number of FiberForm® , the matrix material of NASA\u27s Phenolic Impre...
A document summarizes the development of a carbon-carbon composite radiator for dissipating waste he...
Thermal Protection Systems (TPS) are designed to protect re-entry space vehicles from the severe hea...
Protecting a spacecraft during atmospheric entry is one of highest risk factors that needs to be mit...
Abstract Space exploration missions rely on ablative heat shields for the thermal protection of spac...
A lightweight carbon-phenolic ablator, with a density of 0.5 g/cm3, designed to be used as a thermal...
Two Pyrrone materials, pure Pyrrone foam with a density of 481 kg/cu m and hollow glass microsphere-...
Two Pyrrone materials, pure Pyrrone foam with a density of 481 kg/cu m and hollow glass microsphere-...
Thermal protection systems (TPS) are designed to protect re-entry space vehicles from the severe hea...
This paper presents the development of the light weight Phenolic Impregnated Carbon Ablators (PICA) ...
Future space exploration missions beyond Earth's orbit, such as sample returns from Mars, will use a...
A reinforced carbon-carbon thermal protection system is used on the space shuttle orbiter vehicle's ...
Atmospheric entry is one of the most critical phases of space exploration missions. Spacecraft are e...
This paper reports on the initial development of an ablation gauge designed to measure the surface r...
Ablation and temperature data for Apollo heat shield material using Pacemaker vehicle for flight tes
The oxidation at high Knudsen number of FiberForm® , the matrix material of NASA\u27s Phenolic Impre...
A document summarizes the development of a carbon-carbon composite radiator for dissipating waste he...
Thermal Protection Systems (TPS) are designed to protect re-entry space vehicles from the severe hea...
Protecting a spacecraft during atmospheric entry is one of highest risk factors that needs to be mit...
Abstract Space exploration missions rely on ablative heat shields for the thermal protection of spac...
A lightweight carbon-phenolic ablator, with a density of 0.5 g/cm3, designed to be used as a thermal...
Two Pyrrone materials, pure Pyrrone foam with a density of 481 kg/cu m and hollow glass microsphere-...
Two Pyrrone materials, pure Pyrrone foam with a density of 481 kg/cu m and hollow glass microsphere-...
Thermal protection systems (TPS) are designed to protect re-entry space vehicles from the severe hea...
This paper presents the development of the light weight Phenolic Impregnated Carbon Ablators (PICA) ...
Future space exploration missions beyond Earth's orbit, such as sample returns from Mars, will use a...
A reinforced carbon-carbon thermal protection system is used on the space shuttle orbiter vehicle's ...
Atmospheric entry is one of the most critical phases of space exploration missions. Spacecraft are e...
This paper reports on the initial development of an ablation gauge designed to measure the surface r...
Ablation and temperature data for Apollo heat shield material using Pacemaker vehicle for flight tes
The oxidation at high Knudsen number of FiberForm® , the matrix material of NASA\u27s Phenolic Impre...
A document summarizes the development of a carbon-carbon composite radiator for dissipating waste he...