RARE EARTH MAGNETS Neodymium Iron Boron (NdFeB)
Neodymium magnets (Nd-Fe-B) are composed of neodymium, Iron, Boron
and a few transition metals. Samarium Cobalt magnets (SmCo) are composed
of samarium, cobalt and iron. These rare earth magnets are extremely strong
for their small size, metallic in appearance and found in such simple
shapes as rings, blocks and discs.
Manufacturing Rare Earth Magnets
In general, the elements are melted together and milled into a power
that is dry-pressed to shape in the presence of a magnetic field. The
material is then inte-red, aged, ground to dimension, magnetizem and tested.
They are called “rare earth” magnets because the elements
of neodymium and samarium are classified as such in the lanthanides section
of the Periodic Table of the Elements.
Neodymium
› Attributes of Neodymium› Very high resistance to demagnetization
› High energy for size
› Good in ambient temperature
› High priced
› Material is corrosive and should be coated for long term maximum energy output
› low working temperature for heat applications Application of Neodymium
Magnetic separator, linear actuators, microphone assemblies, servo
motors, DC motors (automotive starters), Computer rigid disc drives, hammer
bank printers, and speakers.
Samarium
Attributes of Samarium
› High resistance to demagnetization› High energy (magnetic strength is strong for its size)
› Good temperature stability
› Expensive material (cobalt is market price sensitive)
Applications of Samarium
› Computer disc drives› Sensors
› Traveling wave tubes
› Linear actuators
› Satellite systems
› Motors where temporary stability is vital
Rare earth Tolerances
For as pressed material, tolerance on the thickness (direction of
magnetization) is +/- .127mm. Other Dimensions are +/- 2.5% or +/-.254mm,
whicherer is greater.
According to Magnet Materials Producers Association (MMPA) standards, visual imperfections such as hairline cracks, porosity and minor chips are commonly found in sintered metallic magnets. A chipped edge is considered acceptable if no more than 10% of the surface is missing. Cracks are acceptable as long as they do not extend across more then 50% of of pole surface.
According to Magnet Materials Producers Association (MMPA) standards, visual imperfections such as hairline cracks, porosity and minor chips are commonly found in sintered metallic magnets. A chipped edge is considered acceptable if no more than 10% of the surface is missing. Cracks are acceptable as long as they do not extend across more then 50% of of pole surface.
Rare Earth Magnetizing and Handling
Rare earth magnets are very brittle and very strong magnetically.
Therefore, it is crucial to handle these magnets with extreme care to
avoid personal injury and damage to the magnets. Fingers can be severely
pinched between attracting magnets. Magnets can be chip if allowed to
“Jump at” an attracting object. It is highly recommended that
when constructing rare earth magnetic assemblies, they be magnetized after
assembly.
Rare Earth Machining
Since rare earth magnet material is prone to chipping and cracking,
it does not lend itself to conventional machining methods. It can, however,
be abrasively ground, but only with the use of liberal amounts of coolant.
The coolant minimizes heat fracturing and the risk of fires caused by
oxidized grinding dust.
Typical magnetic and Physical Properties of Rare Earth Magnet Material
