Add to ORKGThe potential role of superalloys, refractory alloys, and ceramics in the hottest sections of engines operating with turbine inlet temperatures as high as 1370 C is examined. The convential superalloys, directionally solidified eutectics, oxide dispersion strenghened alloys, and tungsten fiber reinforced superalloys are reviewed and compared on the basis of maximum turbine blade temperature capability. Improved high temperature protective coatings and special fabrication techniques for these advanced alloys are discussed. Chromium, columbium, molybdenum, tantalum, and tungsten alloys are also reviewed. Molbdenum alloys are found to be the most suitable for mass produced turbine wheels. Various forms and fabrication processes for silicon nit...
Improved performance of heat engines is largely dependent upon maximum cycle temperatures. Tungsten ...
Aggressive fuel burn and carbon dioxide emission reduction goals for future gas turbine engines will...
Superalloy represents a class of high temperature / high performance material, which became avail...
The employment of the high operational temperatures makes it necessary to use, for the construction ...
Recent activities of the Lewis Research Center are reviewed which are directed toward developing mat...
Material categories as well as coatings and recent turbine cooling developments are reviewed. Curren...
Ceramic material characterization and testing of ceramic nozzle vanes, turbine tip shrouds, and rege...
A summary of research investigations of manufacturing methods, fabrication methods, and testing of h...
Significant progress has recently been made in many high temperature material categories pertinent t...
Research is reported for the tensile strength, ductility, and heat performance characterisitics of p...
The demand for materials that will withstand the high stresses in rapidly rotating parts of the...
This study shows the effects of new materials for gas turbines and techniques for blade coating. The...
Fuel economy in a commercially viable gas turbine engine was demonstrated through use of ceramic mat...
Development testing activities on the 1900 F-configuration ceramic parts were completed, 2070 F-conf...
The results of a preliminary analysis of a single shaft regenerative design with a single stage radi...
Improved performance of heat engines is largely dependent upon maximum cycle temperatures. Tungsten ...
Aggressive fuel burn and carbon dioxide emission reduction goals for future gas turbine engines will...
Superalloy represents a class of high temperature / high performance material, which became avail...
The employment of the high operational temperatures makes it necessary to use, for the construction ...
Recent activities of the Lewis Research Center are reviewed which are directed toward developing mat...
Material categories as well as coatings and recent turbine cooling developments are reviewed. Curren...
Ceramic material characterization and testing of ceramic nozzle vanes, turbine tip shrouds, and rege...
A summary of research investigations of manufacturing methods, fabrication methods, and testing of h...
Significant progress has recently been made in many high temperature material categories pertinent t...
Research is reported for the tensile strength, ductility, and heat performance characterisitics of p...
The demand for materials that will withstand the high stresses in rapidly rotating parts of the...
This study shows the effects of new materials for gas turbines and techniques for blade coating. The...
Fuel economy in a commercially viable gas turbine engine was demonstrated through use of ceramic mat...
Development testing activities on the 1900 F-configuration ceramic parts were completed, 2070 F-conf...
The results of a preliminary analysis of a single shaft regenerative design with a single stage radi...
Improved performance of heat engines is largely dependent upon maximum cycle temperatures. Tungsten ...
Aggressive fuel burn and carbon dioxide emission reduction goals for future gas turbine engines will...
Superalloy represents a class of high temperature / high performance material, which became avail...