Add to ORKGCeramics are prime candidate materials for advanced rocket engines because they possess high-temperature capability, a tolerance for aggressive environments, and low density. A program was conducted to assess the applicability of structural ceramics to advanced versions of the Space Shuttle main engine (SSME). Operating conditions of ceramic turbine components were defined and each component in the hot-gas path was assessed in regard to materials selection, manufacturing process and feasibility, and relative structural reliability. The conclusion is that ceramic components would be viable in advanced SSME turbopumps
Development testing activities on the 1900 F-configuration ceramic parts were completed, 2070 F-conf...
Ceramic material characterization and testing of ceramic nozzle vanes, turbine tip shrouds, and rege...
remaining critical concerns lowing the commercialization of structural ceramics in gas turbine engin...
The NASA Lewis Research Center's Ceramic Technology Program is focused on aerospace propulsion and p...
The use of ceramic materials in the hot section of the fuel turbopump of advanced reusable rocket en...
The operation of rocket engine turbine pumps is limited by the temperature restrictions of metallic ...
Structural ceramics were under nearly continuous development for various heat engine applications si...
The employment of the high operational temperatures makes it necessary to use, for the construction ...
Silicon-based ceramics are attractive materials for use in gas turbine engine hot sections due to th...
The material requirements for various key components of aircraft power plants has been analysed. The...
An overview on engine development projects for potential use of ceramics is reported. A major cerami...
Significant accomplishments in fabricating ceramic components for advanced heat engine programs have...
A study program was conducted to identify those materials that will provide the greatest benefits as...
The performance of current industrial gas turbines is limited by the temperature and strength capabi...
The demand for materials that will withstand the high stresses in rapidly rotating parts of the...
Development testing activities on the 1900 F-configuration ceramic parts were completed, 2070 F-conf...
Ceramic material characterization and testing of ceramic nozzle vanes, turbine tip shrouds, and rege...
remaining critical concerns lowing the commercialization of structural ceramics in gas turbine engin...
The NASA Lewis Research Center's Ceramic Technology Program is focused on aerospace propulsion and p...
The use of ceramic materials in the hot section of the fuel turbopump of advanced reusable rocket en...
The operation of rocket engine turbine pumps is limited by the temperature restrictions of metallic ...
Structural ceramics were under nearly continuous development for various heat engine applications si...
The employment of the high operational temperatures makes it necessary to use, for the construction ...
Silicon-based ceramics are attractive materials for use in gas turbine engine hot sections due to th...
The material requirements for various key components of aircraft power plants has been analysed. The...
An overview on engine development projects for potential use of ceramics is reported. A major cerami...
Significant accomplishments in fabricating ceramic components for advanced heat engine programs have...
A study program was conducted to identify those materials that will provide the greatest benefits as...
The performance of current industrial gas turbines is limited by the temperature and strength capabi...
The demand for materials that will withstand the high stresses in rapidly rotating parts of the...
Development testing activities on the 1900 F-configuration ceramic parts were completed, 2070 F-conf...
Ceramic material characterization and testing of ceramic nozzle vanes, turbine tip shrouds, and rege...
remaining critical concerns lowing the commercialization of structural ceramics in gas turbine engin...