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réothixotropes

Rhéothixotropes, also called rheo-thixotropic materials, are substances that exhibit thixotropy: their apparent viscosity decreases with time under constant shear and recovers when the shear is removed. This time-dependent behavior reflects reversible changes in the material’s internal structure, such as the disruption and reformation of particle networks or polymer entanglements.

Mechanism and behavior commonly involve a breakdown of a gel-like or flocculated structure under shear, leading

Measurement and interpretation in rheology often use controlled tests such as the three-interval thixotropy test or

Applications for rheo-thixotropic materials are widespread. They are valued in coatings and paints for ease of

to
a
rapid
drop
in
viscosity.
If
shear
continues,
the
structure
may
reach
a
steadier,
lower-viscosity
state.
When
shear
is
stopped,
the
microstructure
gradually
rebuilds,
and
the
viscosity
increases
again
toward
its
original
value.
The
rate
of
rebuilding
depends
on
factors
such
as
temperature,
composition,
particle
interactions,
and
the
strength
of
the
network.
rheological
sweeps
with
hysteresis.
The
area
of
the
viscosity
or
modulus
hysteresis
loop
between
loading
and
unloading
curves
provides
a
quantitative
measure
of
thixotropy;
larger
areas
indicate
stronger
time-dependent
structuring.
Such
tests
help
distinguish
thixotropic
behavior
from
simple
shear-thinning
or
from
rheopexy
(the
time-dependent
increase
in
viscosity
under
shear).
application
that
hardens
after
flow,
in
inks
and
pastes
for
controlled
workability,
in
cosmetics,
and
in
many
food
products
where
texture
and
stability
depend
on
time-dependent
structure.