Add to ORKGRecent activities of the Lewis Research Center are reviewed which are directed toward developing materials for rotating hot section components for aircraft gas turbines. Turbine blade materials activities are directed at increasing metal temperatures approximately 100 C compared to current directionally solidified alloys by use of oxide dispersion strengthening or tungsten alloy wire reinforcement of nickel or iron base superalloys. The application of thermal barrier coatings offers a promise of increasing gas temperatures an additional 100 C with current cooling technology. For turbine disk alloys, activities are directed toward reducing the cost of turbine disks by 50 percent through near net shape fabrication of prealloyed powders as wel...
The cost/benefits of advance commercial gas turbine materials are described. Development costs, esti...
Cost benefit studies were conducted on six advanced materials and processes technologies applicable ...
Protective coatings for heat resistant materials for aircraft gas turbine engines, and refractory me...
Material categories as well as coatings and recent turbine cooling developments are reviewed. Curren...
The development of power and propulsion system technology is discussed. Specific emphasis is placed ...
The potential role of superalloys, refractory alloys, and ceramics in the hottest sections of engine...
The Materials for Advanced Turbine Engine (MATE) Program managed by the NASA Lewis Research Center i...
Development of high temperature alloys, dispersion strengthened materials, composites, and coatings ...
This study shows the effects of new materials for gas turbines and techniques for blade coating. The...
NASA sponsored the Turbine Engine Hot Section (HOST) project to address the need for improved durabi...
The next generation of subsonic commercial aircraft will require engines with improved efficiency an...
The Materials Division at the Lewis Research Center has a long record of contributions to both mater...
NASA sponsored the Turbine Engine Hot Section Technology (HOST) Project to address the need for impr...
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 cost/benefits of advance commercial gas turbine materials are described. Development costs, esti...
Cost benefit studies were conducted on six advanced materials and processes technologies applicable ...
Protective coatings for heat resistant materials for aircraft gas turbine engines, and refractory me...
Material categories as well as coatings and recent turbine cooling developments are reviewed. Curren...
The development of power and propulsion system technology is discussed. Specific emphasis is placed ...
The potential role of superalloys, refractory alloys, and ceramics in the hottest sections of engine...
The Materials for Advanced Turbine Engine (MATE) Program managed by the NASA Lewis Research Center i...
Development of high temperature alloys, dispersion strengthened materials, composites, and coatings ...
This study shows the effects of new materials for gas turbines and techniques for blade coating. The...
NASA sponsored the Turbine Engine Hot Section (HOST) project to address the need for improved durabi...
The next generation of subsonic commercial aircraft will require engines with improved efficiency an...
The Materials Division at the Lewis Research Center has a long record of contributions to both mater...
NASA sponsored the Turbine Engine Hot Section Technology (HOST) Project to address the need for impr...
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 cost/benefits of advance commercial gas turbine materials are described. Development costs, esti...
Cost benefit studies were conducted on six advanced materials and processes technologies applicable ...
Protective coatings for heat resistant materials for aircraft gas turbine engines, and refractory me...