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crosslinkable

Crosslinkable is a term used in polymer science to describe materials that can form bonds between individual polymer chains under suitable conditions, creating a network structure. In crosslinked polymers, the links connect chains at multiple points, reducing mobility and often transforming a soluble or melt-processable polymer into a thermoset or gel.

Crosslinking can be covalent, ionic, or physical in nature. In most practical contexts, covalent crosslinks are

Benefits of crosslinkability include increased modulus, strength, thermal stability, chemical resistance, and dimensional stability, along with

Industrial examples encompass epoxy and phenolic resins, silicone elastomers, and vulcanized rubbers, as well as UV-crosslinked

the
primary
focus,
formed
through
chemical
reactions
that
join
reactive
groups
on
different
polymer
chains.
Activation
methods
include
thermal
curing,
irradiation
(such
as
UV
or
gamma
rays),
or
chemical
processes
using
crosslinking
agents
or
catalysts.
The
degree
of
crosslinking
depends
on
functionality
(the
number
of
reactive
groups
per
molecule),
crosslinker
concentration,
and
reaction
conditions,
which
together
determine
network
density
and
final
material
properties.
reduced
solubility
and
swellability.
Drawbacks
can
include
reduced
ductility
or
toughness,
processing
difficulties,
and
potential
brittleness
if
the
network
is
overly
dense.
polymer
resins
used
in
coatings,
adhesives,
and
photoresists.
In
biomedical
contexts,
crosslinkable
hydrogels
form
networks
for
encapsulating
cells
or
delivering
drugs.
Reversible
or
dynamic
crosslinking,
via
non-permanent
bonds,
enables
reprocessability
and
self-healing
in
some
materials.