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dilatans

Dilatans refers to materials that exhibit dilatancy, a property in which the bulk volume increases when the material is subjected to shear. The term is often used interchangeably with dilatant materials or shear-thickening fluids. In geology and soil mechanics, dilatant behavior is common in dense granular media such as sand or gravel, where particle rearrangement under shear creates additional pore space and causes expansion; by contrast, looser materials may exhibit contractive, or negative, dilatancy under certain conditions.

The mechanism behind dilatancy involves microstructural rearrangements and the networks of contacts between particles. As shear

Dilatant behavior has important implications for engineering and natural processes. In soils, it affects shear strength,

Examples of everyday dilatants include cornstarch suspensions, which rapidly thicken under sudden force. While dilatans is

forces
act,
grains
must
move
past
each
other,
which
can
require
extra
space
and
lead
to
dilation.
The
presence
and
properties
of
interstitial
fluids
can
modify
the
response
by
changing
effective
stress
and
lubrication
within
the
pore
spaces,
influencing
both
stiffness
and
strength
of
the
material.
deformation,
and
phenomena
such
as
pore-pressure
changes
during
rapid
loading
or
earthquake
shaking,
including
the
potential
for
liquefaction
in
saturated
sands.
In
materials
science,
dilatant
or
shear-thickening
fluids
are
studied
for
applications
in
impact
protection,
damping,
and
sometimes
in
suspension
formulations.
a
less
common
plural
form
in
technical
usage,
it
highlights
the
broader
category
of
materials
that
respond
to
shear
with
an
increase
in
volume.
See
also
dilatancy,
shear-thickening,
and
soil
mechanics.