The Orion Multi-Purpose Crew Vehicle will one day carry astronauts to the Moon and beyond, and Orion's heatshield is a critical component in ensuring their safe return to Earth. The Orion heatshield is the structural component responsible for absorbing the intense heating environment caused by re-entry to Earth's atmosphere. The heatshield is primarily composed of Avcoat, an ablative material that is consumed during the re-entry process. Ablation is primarily characterized by two processes: pyrolysis and recession. The decomposition of in-depth virgin material is known as pyrolysis. Recession occurs when the exposed surface of the heatshield reacts with the surrounding flow. The Orion heatshield design was changed from an individually fille...
The Orion Multi-Purpose Crew Vehicle (MPCV) will use an ablative heat shield and improved understand...
This paper presents recent experimental results from arc-jet tests of the Orion heatshield that were...
Ablative thermal protection materials are a key technology for current and future space exploration ...
Ablative materials are often used for spacecraft heatshields to protect underlying structures from t...
AIAA Aerospace Sciences Conference January 2006, Reno, NV.A computer tool to perform entry vehicle ...
We performed finite element analyses on a model of the Phenolic Impregnated Carbon Ablator (PICA) he...
The Orion Thermal Protection System (TPS) margin process uses a root-sum-square approach with branch...
Ablation behavior of heat shield of Apollo command module over wide range of thermal environment
Obtaining measurements of flight environments on ablative heatshields is both critical for spacecraf...
Re-entry of a spacecraft occurs at hypersonic regime where flow field is extremely complex. High tem...
A critical problem in the design of Thermal Protection Systems (TPS) for planetary probes and re-ent...
Re-entry of a spacecraft occurs at the hypersonic regime where the flow field is extremely complex: ...
When a spacecraft traveling at orbital speeds enters a planetary atmosphere, shock waves and frictio...
Charring ablators remain the premium choice for space exploration missions that involve atmospheric ...
During the atmospheric entry of a blunt body, a bow shock wave is generated on the nose of the vehic...
The Orion Multi-Purpose Crew Vehicle (MPCV) will use an ablative heat shield and improved understand...
This paper presents recent experimental results from arc-jet tests of the Orion heatshield that were...
Ablative thermal protection materials are a key technology for current and future space exploration ...
Ablative materials are often used for spacecraft heatshields to protect underlying structures from t...
AIAA Aerospace Sciences Conference January 2006, Reno, NV.A computer tool to perform entry vehicle ...
We performed finite element analyses on a model of the Phenolic Impregnated Carbon Ablator (PICA) he...
The Orion Thermal Protection System (TPS) margin process uses a root-sum-square approach with branch...
Ablation behavior of heat shield of Apollo command module over wide range of thermal environment
Obtaining measurements of flight environments on ablative heatshields is both critical for spacecraf...
Re-entry of a spacecraft occurs at hypersonic regime where flow field is extremely complex. High tem...
A critical problem in the design of Thermal Protection Systems (TPS) for planetary probes and re-ent...
Re-entry of a spacecraft occurs at the hypersonic regime where the flow field is extremely complex: ...
When a spacecraft traveling at orbital speeds enters a planetary atmosphere, shock waves and frictio...
Charring ablators remain the premium choice for space exploration missions that involve atmospheric ...
During the atmospheric entry of a blunt body, a bow shock wave is generated on the nose of the vehic...
The Orion Multi-Purpose Crew Vehicle (MPCV) will use an ablative heat shield and improved understand...
This paper presents recent experimental results from arc-jet tests of the Orion heatshield that were...
Ablative thermal protection materials are a key technology for current and future space exploration ...