Add to ORKGThe NASA Lewis Research Center's Ceramic Technology Program is focused on aerospace propulsion and power needs. Thus, emphasis is on high-temperature ceramics and their structural and environmental durability and reliability. The program is interdisciplinary in nature with major emphasis on materials and processing, but with significant efforts in design methodology and life prediction
The operation of rocket engine turbine pumps is limited by the temperature restrictions of metallic ...
Materials for future generations of aeropropulsion systems will be required to perform at ever-incre...
Ceramics and ceramic matrix composites (CMC) have the potential for significant impact on the perfor...
Structural ceramics were under nearly continuous development for various heat engine applications si...
Significant accomplishments in fabricating ceramic components for advanced heat engine programs have...
Ceramics are prime candidate materials for advanced rocket engines because they possess high-tempera...
The advantages and disadvantages associated with the use of monolithic ceramics in heat engines are ...
Significant accomplishments in fabricating ceramic components for the DOE, NASA, and DOD advanced he...
NASA has developed software that enables American industry to establish the reliability and life of ...
The use of ceramic materials in the hot section of the fuel turbopump of advanced reusable rocket en...
Silicon-based ceramics are attractive materials for use in gas turbine engine hot sections due to th...
Ceramic material characterization and testing of ceramic nozzle vanes, turbine tip shrouds, and rege...
The material requirements for various key components of aircraft power plants has been analysed. The...
Ceramic materials play increasingly important roles in aerospace applications because ceramics have ...
An overview on engine development projects for potential use of ceramics is reported. A major cerami...
The operation of rocket engine turbine pumps is limited by the temperature restrictions of metallic ...
Materials for future generations of aeropropulsion systems will be required to perform at ever-incre...
Ceramics and ceramic matrix composites (CMC) have the potential for significant impact on the perfor...
Structural ceramics were under nearly continuous development for various heat engine applications si...
Significant accomplishments in fabricating ceramic components for advanced heat engine programs have...
Ceramics are prime candidate materials for advanced rocket engines because they possess high-tempera...
The advantages and disadvantages associated with the use of monolithic ceramics in heat engines are ...
Significant accomplishments in fabricating ceramic components for the DOE, NASA, and DOD advanced he...
NASA has developed software that enables American industry to establish the reliability and life of ...
The use of ceramic materials in the hot section of the fuel turbopump of advanced reusable rocket en...
Silicon-based ceramics are attractive materials for use in gas turbine engine hot sections due to th...
Ceramic material characterization and testing of ceramic nozzle vanes, turbine tip shrouds, and rege...
The material requirements for various key components of aircraft power plants has been analysed. The...
Ceramic materials play increasingly important roles in aerospace applications because ceramics have ...
An overview on engine development projects for potential use of ceramics is reported. A major cerami...
The operation of rocket engine turbine pumps is limited by the temperature restrictions of metallic ...
Materials for future generations of aeropropulsion systems will be required to perform at ever-incre...
Ceramics and ceramic matrix composites (CMC) have the potential for significant impact on the perfor...