Add to ORKGReusable surface insulation materials, which were developed as heat shields for the space shuttle, were tested over a range of conditions including heat-transfer rates between 160 and 620 kW/sq m. The lowest of these heating rates was in a range predicted for the space shuttle during reentry, and the highest was more than twice the predicted entry heating on shuttle areas where reusable surface insulation would be used. Individual specimens were tested repeatedly at increasingly severe conditions to determine the maximum heating rate and temperature capability. A silica-base material experienced only minimal degradation during repeated tests which included conditions twice as severe as predicted shuttle entry and withstood cumulative exposu...
A closed pore ceramic foam insulation material (CPI) has been developed that offers possibilities fo...
Materials and design technology of the all-silica LI-900 rigid surface insulation (RSI) thermal prot...
Advanced Flexible Reusable Surface Insulation, developed by Ames Research Center, protects the Space...
Results are presented of a two year program to evaluate packaged thermal insulations for use under a...
The harsh conditions to which the Space Shuttles are exposed during flight required the development ...
The thermal and structural performance of a large panel of mullite reusable surface insulation (RSI)...
The characteristics and development of a lightweight reusable thermal protection system for the spac...
Sample titles of the space shuttle reusable surface insulation was subjected alternately to simulate...
Coated specimens of reusable surface insulation (RSI) were exposed to alternate radiant heating and ...
Tiles of space shuttle reusable surface insulation coated with reaction cured glass were subjected t...
Spacecraft entering a planetary atmosphere require a very sophisticated thermal protection system. T...
The thermal and structural performance LI-1542 reusable surface insulation (RSI) tiles was investiga...
A high temperature reusable surface insulation (HRSI) tile taken from the Space Shuttle orbiter was ...
The packaging of metal wool for reusable thermal heat shields applied to aerodynamic and other surfa...
The mullite fiber based hardened compacted fibers (HCF) type of reusable surface insulation was furt...
A closed pore ceramic foam insulation material (CPI) has been developed that offers possibilities fo...
Materials and design technology of the all-silica LI-900 rigid surface insulation (RSI) thermal prot...
Advanced Flexible Reusable Surface Insulation, developed by Ames Research Center, protects the Space...
Results are presented of a two year program to evaluate packaged thermal insulations for use under a...
The harsh conditions to which the Space Shuttles are exposed during flight required the development ...
The thermal and structural performance of a large panel of mullite reusable surface insulation (RSI)...
The characteristics and development of a lightweight reusable thermal protection system for the spac...
Sample titles of the space shuttle reusable surface insulation was subjected alternately to simulate...
Coated specimens of reusable surface insulation (RSI) were exposed to alternate radiant heating and ...
Tiles of space shuttle reusable surface insulation coated with reaction cured glass were subjected t...
Spacecraft entering a planetary atmosphere require a very sophisticated thermal protection system. T...
The thermal and structural performance LI-1542 reusable surface insulation (RSI) tiles was investiga...
A high temperature reusable surface insulation (HRSI) tile taken from the Space Shuttle orbiter was ...
The packaging of metal wool for reusable thermal heat shields applied to aerodynamic and other surfa...
The mullite fiber based hardened compacted fibers (HCF) type of reusable surface insulation was furt...
A closed pore ceramic foam insulation material (CPI) has been developed that offers possibilities fo...
Materials and design technology of the all-silica LI-900 rigid surface insulation (RSI) thermal prot...
Advanced Flexible Reusable Surface Insulation, developed by Ames Research Center, protects the Space...