Porous monolithic ablative systems insulate atmospheric reentry vehicles from reentry plasmas generated by atmospheric braking from orbital and exo-orbital velocities. Due to the necessity that these materials create a temperature gradient up to several thousand Kelvin over their thickness, it is important that these materials are near their pristine state prior to reentry. These materials may also be on exposed surfaces to space environment threats like orbital debris and meteoroids leaving a probability that these exposed surfaces will be below their prescribed values. Owing to the typical small size of impact craters in these materials, the local flow fields over these craters and the ablative process afford some margin in thermal protec...
A critical problem in the design of Thermal Protection Systems (TPS) for planetary probes and re-ent...
Temperature and material effects on high-velocity impact craters in phenolic-nylon and elastomeric a...
The novel structure of metallic foams is of interest in the design of next-generation debris shields...
AbstractMonolithic, porous, thermal protection systems were used heavily on the Apollo command modul...
AbstractPorous-ceramic, thermal protection systems were used heavily on the Orbiter, and they are cu...
A first-principals, semi-empirical ballistic performance model has been developed for porous ceramic...
Gun development efforts to increase the launching capabilities of the NASA Ames 0.5-inch two-stage l...
Hypervelocity impact tests were conducted to simulate the damage that meteoroids will produce in the...
Thermal protection systems for hypersonic vehicles are low- to zero-fault-tolerant. In order to unde...
AbstractFused silica window systems are used heavily on crewed reentry vehicles, and they are curren...
A significant amount of research has been conducted in the last decades on the design of spacecraft ...
The Thermal Protection System (TPS) protects (insulates) a body from the severe heating encountered ...
Protecting a spacecraft during atmospheric entry is one of highest risk factors that needs to be mit...
System analysis and design of any entry system must balance the level fidelity for each discipline a...
During the atmospheric entry of a blunt body, a bow shock wave is generated on the nose of the vehic...
A critical problem in the design of Thermal Protection Systems (TPS) for planetary probes and re-ent...
Temperature and material effects on high-velocity impact craters in phenolic-nylon and elastomeric a...
The novel structure of metallic foams is of interest in the design of next-generation debris shields...
AbstractMonolithic, porous, thermal protection systems were used heavily on the Apollo command modul...
AbstractPorous-ceramic, thermal protection systems were used heavily on the Orbiter, and they are cu...
A first-principals, semi-empirical ballistic performance model has been developed for porous ceramic...
Gun development efforts to increase the launching capabilities of the NASA Ames 0.5-inch two-stage l...
Hypervelocity impact tests were conducted to simulate the damage that meteoroids will produce in the...
Thermal protection systems for hypersonic vehicles are low- to zero-fault-tolerant. In order to unde...
AbstractFused silica window systems are used heavily on crewed reentry vehicles, and they are curren...
A significant amount of research has been conducted in the last decades on the design of spacecraft ...
The Thermal Protection System (TPS) protects (insulates) a body from the severe heating encountered ...
Protecting a spacecraft during atmospheric entry is one of highest risk factors that needs to be mit...
System analysis and design of any entry system must balance the level fidelity for each discipline a...
During the atmospheric entry of a blunt body, a bow shock wave is generated on the nose of the vehic...
A critical problem in the design of Thermal Protection Systems (TPS) for planetary probes and re-ent...
Temperature and material effects on high-velocity impact craters in phenolic-nylon and elastomeric a...
The novel structure of metallic foams is of interest in the design of next-generation debris shields...