Development and Testing of a Radial Halbach Magnetic Bearing

The NASA John H. Glenn Research Center has developed and tested a revolutionary Radial Halbach Magnetic Bearing. The objective of this work is to develop a viable non-contact magnetic bearing utilizing Halbach arrays for all-electric flight, and many other applications. This concept will help reduce harmful emissions, reduce the Nation s dependence on fossil fuels and mitigate many of the concerns and limitations encountered in conventional axial bearings such as bearing wear, leaks, seals and friction loss. The Radial Halbach Magnetic Bearing is inherently stable and requires no active feedback control system or superconductivity as required in many magnetic bearing designs. The Radial Halbach Magnetic Bearing is useful for very high speed applications including turbines, instrumentation, medical applications, manufacturing equipment, and space power systems such as flywheels. Magnetic fields suspend and support a rotor assembly within a stator. Advanced technologies developed for particle accelerators, and currently under development for maglev trains and rocket launchers, served as the basis for this application. Experimental hardware was successfully designed and developed to validate the basic principles and analyses. The report concludes that the implementation of Radial Halbach Magnetic Bearings can provide significant improvements in rotational system performance and reliability. Eichenberg, Dennis J. and Gallo, Christopher A. and Thompson, William K. Glenn Research Center NASA/TM-2006-214477, E-15769 WBS 561581.02.08.03.06.04 MAGNETIC BEARINGS; ACTIVE CONTROL; SPACECRAFT POWER SUPPLIES; PARTICLE ACCELERATORS; MAGNETIC SUSPENSION; FOSSIL FUELS; FRICTION; SUPERCONDUCTIVITY; RELIABILITY; MANUFACTURING; MEDICAL EQUIPMENT