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ferrofluid

Ferrofluid is a liquid that becomes magnetized in the presence of a magnetic field. It consists of nanoscale ferromagnetic or ferrimagnetic particles, typically magnetite (Fe3O4) or maghemite (γ-Fe2O3), dispersed in a carrier liquid with a surfactant coating to prevent agglomeration. Particle diameters are usually 6 to 20 nanometers, small enough for Brownian motion to counteract sedimentation and keep the suspension stable without fields. In zero field the fluid behaves as a normal liquid; when a magnetic field is applied, the particles align with the field and can form chain-like structures along the field lines.

Under magnetic fields, ferrofluids exhibit surface deformations and spike patterns along field lines, a phenomenon known

Applications include seals, dampers, and lubricants in rotating machinery, where a ferrofluid can form a magnetic

Ferrofluids are produced by dispersing nanoscale magnetic particles in carrier liquids with surface coatings. Oil-based ferrofluids

as
the
normal-field
instability.
The
magnetic
forces
interact
with
surface
tension
and
viscous
forces
to
create
spikes
and
arrays.
The
particles
are
typically
superparamagnetic
at
these
sizes,
so
the
fluid
does
not
retain
magnetization
after
the
field
is
removed.
Applied
fields
can
also
increase
the
fluid’s
apparent
viscosity,
a
magnetoviscous
effect
that
slows
flow.
seal
or
provide
vibration
damping.
Ferrofluid
is
used
in
loudspeakers
to
damp
movement
and
improve
cooling,
and
in
laboratory
demonstrations
of
magnetically
controlled
fluids.
Research
explores
ferrofluids
for
targeted
drug
delivery,
magnetic
hyperthermia,
and
microfluidic
systems,
with
biocompatible
coatings
under
development
for
medical
use.
are
common
in
industry;
water-based
types
exist
but
are
less
common.
The
concept
originated
in
the
1960s
at
NASA
for
spacecraft
sealing
and
guidance,
and
has
since
found
applications
in
science
and
engineering.