The NASA Glenn Research Center, the U.S. Army, Texas A&M University, and other industrial partners are continuing to work together to develop magnetic suspension technology to withstand the harsh environmental conditions inside current and future turbomachinery. In fiscal year 2002, our third-generation radial magnetic bearing successfully controlled rotor motion while at 1000 F (540 C) and 20 000 rpm. The ability to command the rotor s position while spinning at this speed was also demonstrated. Future work is planned to include radial bearing tests to 1100 F (593 C) and 30 000 rpm. In fiscal year 2003, we plan to test a high-temperature thrust bearing
Magnetic bearings have traditionally been considered for use in aerospace applications only where pe...
The Electron Energy Corporation (EEC) along with National Aeronautics and Space Administration (NASA...
The Electron Energy Corporation (EEC) along with the National Aeronautics and Space Administration (...
The Structural Mechanics and Dynamics Branch at the NASA Glenn Research Center has developed a three...
The gas turbine industry has a continued interest in improving engine performance and reducing net o...
Magnetic bearings are the subject of a new NASA Lewis Research Center and U.S. Army thrust with sign...
Magnetic bearings are the subject of a new NASA Lewis Research Center and U.S. Army thrust with sign...
The Army Research Laboratory Vehicle Technology Directorate and the NASA Glenn Research Center demon...
Open loop, experimental force and power measurements of a three-axis, radial, heteropolar magnetic b...
NASA Lewis Research Center's Dynamic Spin Rig, located in Building 5, Test Cell CW-18, is used to te...
Magnetic bearings are just beginning to be flown in spacecraft systems, but their development spans ...
The concept of magnetic levitation is not a new one and can be easily traced back to the 1800's. It ...
Research activities undertaken to upgrade the fault-tolerant facility, continue testing high-speed f...
Magnetic bearings have been successfully applied to motorized rotor systems in the multi-kilogram ra...
Magnetic suspension technology has advanced to the point of being able to offer a number of advantag...
Magnetic bearings have traditionally been considered for use in aerospace applications only where pe...
The Electron Energy Corporation (EEC) along with National Aeronautics and Space Administration (NASA...
The Electron Energy Corporation (EEC) along with the National Aeronautics and Space Administration (...
The Structural Mechanics and Dynamics Branch at the NASA Glenn Research Center has developed a three...
The gas turbine industry has a continued interest in improving engine performance and reducing net o...
Magnetic bearings are the subject of a new NASA Lewis Research Center and U.S. Army thrust with sign...
Magnetic bearings are the subject of a new NASA Lewis Research Center and U.S. Army thrust with sign...
The Army Research Laboratory Vehicle Technology Directorate and the NASA Glenn Research Center demon...
Open loop, experimental force and power measurements of a three-axis, radial, heteropolar magnetic b...
NASA Lewis Research Center's Dynamic Spin Rig, located in Building 5, Test Cell CW-18, is used to te...
Magnetic bearings are just beginning to be flown in spacecraft systems, but their development spans ...
The concept of magnetic levitation is not a new one and can be easily traced back to the 1800's. It ...
Research activities undertaken to upgrade the fault-tolerant facility, continue testing high-speed f...
Magnetic bearings have been successfully applied to motorized rotor systems in the multi-kilogram ra...
Magnetic suspension technology has advanced to the point of being able to offer a number of advantag...
Magnetic bearings have traditionally been considered for use in aerospace applications only where pe...
The Electron Energy Corporation (EEC) along with National Aeronautics and Space Administration (NASA...
The Electron Energy Corporation (EEC) along with the National Aeronautics and Space Administration (...