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vulcanisation

Vulcanisation is a chemical process that converts natural or synthetic rubber into a more durable, elastic material by creating cross-links between polymer chains, typically through sulfur or other vulcanizing agents, under heat and pressure. The process increases the rubber’s resilience, heat resistance, and strength, while reducing tack and deformation under repeated use. Traditional vulcanisation usually occurs at temperatures around 140–180°C.

In the conventional method, small amounts of sulfur are mixed with rubber along with accelerators and fillers,

The history of vulcanisation dates to the 19th century. Charles Goodyear, who in 1839 discovered that heating

Variants and related techniques include accelerated sulfur vulcanisation, which uses accelerators to lower processing temperature and

Applications are broad but dominated by tires and inner tubes; vulcanised rubber is also used in belts,

and
the
mixture
is
heated.
The
sulfur
forms
cross-links,
primarily
sulfur
bridges,
between
long
polymer
chains
(such
as
polyisoprene
in
natural
rubber).
The
extent
of
cross-linking,
or
cross-link
density,
governs
the
final
properties:
more
cross-links
yield
a
stiffer,
hotter-resistant
material
with
higher
tensile
strength
but
reduced
elongation.
rubber
with
sulfur
produced
a
more
durable
material,
is
credited
with
its
practical
development;
Thomas
Hancock
independently
refined
the
process
in
Britain.
The
term
vulcanisation
derives
from
Vulcan,
the
Roman
god
of
fire,
reflecting
the
heat-driven
chemical
change.
time,
and
peroxide
vulcanisation,
which
forms
carbon–carbon
cross-links
instead
of
sulfur
bridges.
Vulcanisation
is
largely
irreversible,
meaning
vulcanised
rubber
cannot
be
remelted
and
reprocessed
by
simple
heating.
hoses,
seals,
gaskets,
footwear,
and
various
molded
or
extruded
components.
Advances
continue
in
lightweight,
heat-resistant,
and
chemically
resistant
formulations
for
specialized
needs.