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thermosets

Thermosets are a class of polymers that irreversibly set or cure to form a rigid, three‑dimensional network. Unlike thermoplastics, which soften and can be remolded when heated, thermosets do not melt once cured due to extensive crosslinking.

Processing involves mixing a resin with a curing agent, catalyst, or hardener and then heating or exposing

Common families include epoxy resins, phenolic resins (such as novolaks and resols), unsaturated polyesters, polyurethane resins,

Thermosets typically exhibit high thermal stability, chemical resistance, hardness, and dimensional stability, along with good electrical

Applications include electronic encapsulation, coatings, adhesive bonds, fiber-reinforced composites, and molded parts in automotive and industrial

to
other
triggers
to
initiate
a
chemical
reaction.
The
curing
forms
covalent
bonds
between
polymer
chains,
creating
a
solid
crosslinked
network
whose
properties
depend
on
crosslink
density
and
the
chemistry
used.
urea-formaldehyde
and
melamine-formaldehyde
resins,
and
silicone-based
elastomers.
Epoxies
are
widely
used
as
adhesives
and
protective
coatings;
phenolics
as
heat-resistant
binders;
polyurethanes
in
foams
and
coatings;
unsaturated
polyesters
in
composites;
silicones
in
seals
and
gasketing.
insulation.
They
tend
to
be
more
brittle
than
many
thermoplastics
and
have
limited
or
no
reworkability
after
curing.
equipment.
A
key
limitation
is
recyclability;
after
cure
they
cannot
be
remelted,
so
recovery
generally
relies
on
mechanical
grinding,
chemical
recycling,
or
reuse
as
fillers.
Advances
aim
to
improve
toughness
and
recyclability,
including
approaches
with
reversible
crosslinks
or
bio-based
monomers.