Add to ORKGSpherically blunted 0.44-radian (25 deg) half-angle conical models coated with elastomeric ablative materials were tested in supersonic arc-heated wind tunnels to evaluate performance of the ablators over a range of conditions typical of lifting entry. Four test conditions were combinations of stagnation point-heat transfer rates of 2.3 and 4.5 MW/m2 and stagnation pressures of 20 and 2kN/m2. Afterbody values of heat transfer rate and pressure were 0.05 to 0.20 of stagnation point values. Stagnation enthalpy varied from 4.4 to 25 MJ/kg (1900 to 11000 Btu/lbm) and free-stream Mach number was in a range from 3.5 to 4. Ablative materials retained the spherical nose shape throughout tests at the lower heat transfer level, but receded, assuming ...
The major objectives were accomplished in three tasks: (1) modification of the ablative material com...
Heat-transfer rates and ablation on blunt flared cylinder in free flight at hypersonic and lower spe...
This paper presents the development of the light weight Phenolic Impregnated Carbon Ablators (PICA) ...
Spheres of ablating material subjected to aerodynamic heating to determine physical propert
The ablation performance of materials composed of various concentrations of nylon, hollow silica sph...
Ablating materials tested at combined radiative and convective heating for manned reentry vehicle he...
Ablation behavior of heat shield of Apollo command module over wide range of thermal environment
An ablator patch material performed well in an arc plasma environment simulating nominal Earth entry...
Resistance to heat penetration and deformations or buckling of three ablation materials during simul...
Elastomeric and rigid silicone, epoxy, and phenol resin base ablating materials evaluated at various...
The influence of ablation on the aerodynamic characteristics of a blunted slender cone was investiga...
New tests and analyses are reported that were carried out to resolve testing uncertainties in the or...
A spacecraft's thermal protection system (TPS) is required to survive the harsh environment experien...
An ablative material composed of silica-filled elastomeric silicone was tested to evaluate its therm...
Ablatives are materials used to protect the inner hardware of aerospace structures from the inimical...
The major objectives were accomplished in three tasks: (1) modification of the ablative material com...
Heat-transfer rates and ablation on blunt flared cylinder in free flight at hypersonic and lower spe...
This paper presents the development of the light weight Phenolic Impregnated Carbon Ablators (PICA) ...
Spheres of ablating material subjected to aerodynamic heating to determine physical propert
The ablation performance of materials composed of various concentrations of nylon, hollow silica sph...
Ablating materials tested at combined radiative and convective heating for manned reentry vehicle he...
Ablation behavior of heat shield of Apollo command module over wide range of thermal environment
An ablator patch material performed well in an arc plasma environment simulating nominal Earth entry...
Resistance to heat penetration and deformations or buckling of three ablation materials during simul...
Elastomeric and rigid silicone, epoxy, and phenol resin base ablating materials evaluated at various...
The influence of ablation on the aerodynamic characteristics of a blunted slender cone was investiga...
New tests and analyses are reported that were carried out to resolve testing uncertainties in the or...
A spacecraft's thermal protection system (TPS) is required to survive the harsh environment experien...
An ablative material composed of silica-filled elastomeric silicone was tested to evaluate its therm...
Ablatives are materials used to protect the inner hardware of aerospace structures from the inimical...
The major objectives were accomplished in three tasks: (1) modification of the ablative material com...
Heat-transfer rates and ablation on blunt flared cylinder in free flight at hypersonic and lower spe...
This paper presents the development of the light weight Phenolic Impregnated Carbon Ablators (PICA) ...