Title :
Re-Fe-B powder coating for improvements in corrosion resistance, flux aging loss and mechanical strength of bonded magnets
Author :
Guschl, P.C. ; Campbell, P.
Author_Institution :
Magnequench, Inc., Singapore
Abstract :
Nd12Fe77Co5B6 and Nd12Fe80Nb2B6 powders are coated with an epoxy-based binder system. Each component of the binder is mixed under high shear in the presence of an organic solvent with the powders. The coated powders are then compacted into magnets and cured. Long term magnetic flux measurements are conducted, some samples are also placed in a humidity chamber and their weight gain is measured. Tests on axial crushing strength and ejection pressure are also performed on the magnets. Three point bending strength is determined by fracturing rectangular bars using a load cell to measure the maximum force applied to break each specimen.
Keywords :
bending strength; boron alloys; coating techniques; compressive strength; corrosion resistance; iron alloys; magnetic flux; magnetic particles; magnets; polymer films; powders; protective coatings; remanence; rhenium alloys; Nd12Fe77Co5B6; Nd12Fe80Nb2B6; RE-Fe-B type melt spun magnetic powders; axial crushing strength; bonded magnets; compacted powder; corrosion resistance; ejection pressure; epoxy based binder system; flux aging loss; fracturing; high shear mixing; load cell; magnetic flux; mechanical strength; organic solvent; powder coating; three point bending strength; weight gain; Aging; Bonding; Coatings; Corrosion; Gain measurement; Humidity measurement; Iron; Magnets; Neodymium; Powders;
Conference_Titel :
Magnetics Conference, 2005. INTERMAG Asia 2005. Digests of the IEEE International
Print_ISBN :
0-7803-9009-1
DOI :
10.1109/INTMAG.2005.1463898
