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shearresponsive

Shearresponsive is a term used in materials science to describe systems that alter a property in response to mechanical shear. It encompasses materials, interfaces, and devices whose behavior changes with shear rate or shear stress, typically without changing other stimuli such as temperature or pH. Common manifestations include changes in viscosity or modulus, microstructure reorganization, permeability, or the rate and manner of cargo release.

Design strategies for shearresponsive behavior include incorporating mechanophores or dynamic covalent bonds that respond to force,

Applications span drug delivery, where flow or vascular shear can trigger release; tissue engineering, where shear

Characterization typically involves rheometry to measure viscosity and modulus as a function of shear rate, creep

Challenges include achieving reproducible responses across scales, ensuring biocompatibility and stability, and integrating shearresponsive components into

using
supramolecular
interactions
that
rearrange
under
shear,
and
creating
fibrous
or
particulate
networks
that
reorient
or
reconfigure
when
sheared.
Some
materials
exhibit
shear-induced
assembly
or
disassembly,
while
others
show
rapid
stiffening
or
softening
under
flow.
Related
rheological
phenomena
include
thixotropy
and
shear-thinning,
but
shearresponsive
systems
emphasize
a
distinct
structural
or
functional
change
triggered
by
shear.
guides
cell
alignment
and
matrix
remodeling;
coatings
and
membranes
that
alter
permeability
under
flow;
lubricants
and
elastomers
designed
to
adapt
viscosity
to
operating
conditions;
and
3D
printing,
where
shear
during
extrusion
affects
microstructure
and
properties
of
the
printed
object.
and
recovery
tests,
and
oscillatory
measurements.
In
situ
imaging
and
spectroscopy
can
track
structural
changes,
mechanochemical
signals,
or
release
profiles
under
shear.
practical
devices.
The
term
remains
a
broad
umbrella
for
diverse
systems
that
respond
to
mechanical
forces
rather
than
a
single
standardized
category.