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fotocuring

Fotocuring, also known as photopolymerization, is the rapid hardening of a resin or coating initiated by exposure to light. The resin contains photoinitiators that absorb light and generate reactive species (radicals or cations) that start polymerization or crosslinking, allowing solidification at ambient temperature.

The process can proceed via radical polymerization, common for acrylates and methacrylates, or via cationic polymerization,

Materials and applications for photocuring span coatings, adhesives, dental resins and composites, 3D printing (stereolithography and

Advantages of fotocuring include rapid cure at room temperature, reduced volatile organic compounds, and energy efficiency.

typical
for
epoxies
and
vinyl
ethers.
In
radical
systems,
light-activated
initiators
produce
radicals
that
propagate
chain
growth;
in
cationic
systems,
photoinitiators
generate
acids
that
catalyze
opening
reactions.
Light
sources
include
ultraviolet
(UV)
and
visible
wavelengths,
often
delivered
by
LEDs
or
mercury
lamps.
Photoinitiators
are
chosen
to
match
the
light
source,
with
camphorquinone
and
related
compounds
used
for
visible-light
curing,
and
others
like
TPO
or
Ivocerin
used
for
UV/visible
systems.
Depth
of
cure
depends
on
light
penetration,
resin
opacity,
initiator
concentration,
and
oxygen
inhibition,
which
can
suppress
surface
polymerization
in
radical
systems.
digital
light
processing),
and
electronics
encapsulation.
Common
photocurable
formulations
include
acrylates,
methacrylates,
epoxies,
and
certain
silicone
resins.
Limitations
involve
restricted
penetration
depth
in
thicker
layers,
shrinkage
and
internal
stresses,
surface
inhibition
by
oxygen,
potential
yellowing
or
aging
of
the
material,
and
safety
considerations
related
to
UV
exposure
and
residual
photoinitiators.
Process
control
often
requires
optimization
of
irradiance,
exposure
time,
and
post-curing
to
achieve
desired
mechanical
properties.