Add to ORKGA 50 ft-lb-sec (FPS) reaction wheel was modified with an ironless armature brushless dc motor and a magnetic bearing suspension. The purpose was to demonstrate the performance of an alternate bearing concept, i.e., a magnetic bearing suspension, which could be used in Skylab type CMG's to meet the attitude control requirements of long term space stations. A magnetic suspension was built, installed and tested in the 50 FPS reaction wheel. A secondary effort included the build and test of a compatible reaction wheel motor. Performance characteristics of both are presented and discussed
Magnetic bearings have traditionally been considered for use in aerospace applications only where pe...
Since the samarium-cobalt magnets were available at industrial level, new possibilities appeared in ...
The design and fabrication of a dual spin gas bearing reaction wheel are discussed. Numerical analys...
Results are described of a study program in which the characteristics of a magnetically supported re...
An engineering model of a magnetically suspended momentum wheel was designed, fabricated, and tested...
Different bearing technologies of momentum actuators for the attitude control of satellites are comp...
Aerospatiale magnetic bearings are based on the use of permanent magnets and on the control of the r...
Magnetic bearings have been successfully applied to motorized rotor systems in the multi-kilogram ra...
Magnetic bearings are just beginning to be flown in spacecraft systems, but their development spans ...
The fabrication and testing of three reaction wheels with associated drive and system monitoring ele...
Design, development, and manufacture of inertia reaction wheel with brushless direct current motor d...
The testing of a standard iron and standard alnico permanent magnet two-phase, brushless dc spin mot...
An engineering model of a momentum wheel is described that is suspended by magnetic bearings. It con...
The annular momentum control device (AMCD) a thin hoop-like wheel with neither shaft nor spokes is d...
The required satellite mission durations and levels of reliability have been considerably increased:...
Magnetic bearings have traditionally been considered for use in aerospace applications only where pe...
Since the samarium-cobalt magnets were available at industrial level, new possibilities appeared in ...
The design and fabrication of a dual spin gas bearing reaction wheel are discussed. Numerical analys...
Results are described of a study program in which the characteristics of a magnetically supported re...
An engineering model of a magnetically suspended momentum wheel was designed, fabricated, and tested...
Different bearing technologies of momentum actuators for the attitude control of satellites are comp...
Aerospatiale magnetic bearings are based on the use of permanent magnets and on the control of the r...
Magnetic bearings have been successfully applied to motorized rotor systems in the multi-kilogram ra...
Magnetic bearings are just beginning to be flown in spacecraft systems, but their development spans ...
The fabrication and testing of three reaction wheels with associated drive and system monitoring ele...
Design, development, and manufacture of inertia reaction wheel with brushless direct current motor d...
The testing of a standard iron and standard alnico permanent magnet two-phase, brushless dc spin mot...
An engineering model of a momentum wheel is described that is suspended by magnetic bearings. It con...
The annular momentum control device (AMCD) a thin hoop-like wheel with neither shaft nor spokes is d...
The required satellite mission durations and levels of reliability have been considerably increased:...
Magnetic bearings have traditionally been considered for use in aerospace applications only where pe...
Since the samarium-cobalt magnets were available at industrial level, new possibilities appeared in ...
The design and fabrication of a dual spin gas bearing reaction wheel are discussed. Numerical analys...