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samariumkobalt

Samarium cobalt magnets are a class of permanent magnets composed of intermetallic compounds of samarium and cobalt. The two principal compositions are SmCo5 and Sm2Co17, produced mainly as sintered magnets and, less commonly, as bonded magnets. They are known for high magnetic anisotropy and strong resistance to demagnetization.

Manufacture and composition typically rely on powder metallurgy, followed by controlled heat treatment to develop a

Key properties include a high energy product, usually in the range of 10 to 25 MGOe depending

Applications are concentrated in environments where high-temperature or corrosive conditions prevail, such as aerospace, defense, automotive

The development of samarium cobalt magnets dates to the 1960s, with significant contributions from Japanese and

hard,
magnetically
aligned
microstructure.
Small
additions
of
elements
such
as
iron,
copper,
and
zirconium
help
optimize
performance
and
grain
boundary
characteristics.
Sintered
SmCo
magnets
generally
offer
the
best
combination
of
strength
and
temperature
stability,
while
bonded
variants
provide
greater
flexibility
in
shaping.
on
grade,
excellent
thermal
stability
with
operation
at
elevated
temperatures,
and
strong
resistance
to
demagnetization.
They
also
exhibit
high
Curie
temperatures.
However,
SmCo
magnets
are
brittle
and
relatively
expensive,
and
they
typically
require
protective
coatings
(for
example
nickel
or
zinc)
to
guard
against
corrosion.
actuators,
sensors,
and
specialized
motors.
While
NdFeB
magnets
offer
higher
maximum
energy
products,
SmCo
magnets
retain
superior
high-temperature
performance
and
corrosion
resistance,
which
makes
them
indispensable
for
certain
extreme
applications.
other
international
research
and
industry
teams.
They
remain
in
use
today
in
niche
applications
where
their
distinctive
thermal
and
chemical
stability
is
essential.