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Titanium (symbol Ti, atomic number 22) is a lustrous transition metal known for a high strength-to-weight ratio and exceptional corrosion resistance. It forms a protective oxide layer that passivates its surface, giving it remarkable durability in harsh environments. In chemistry, titanium most commonly exhibits a +4 oxidation state, though +3 and other valences occur in compounds.

Occurrence and production. Titanium is the ninth-most abundant element in Earth's crust, and its primary sources

Isotopes and properties. Five stable isotopes occur naturally: 46Ti, 47Ti, 48Ti, 49Ti, and 50Ti. Titanium has

Applications and alloys. Titanium and its alloys are widely used in aerospace, automotive, chemical processing, and

History. The element was identified in 1791 by William Gregor in Cornwall and named titanium by Martin

are
the
minerals
ilmenite
(FeTiO3)
and
rutile
(TiO2).
The
main
industrial
production
route
is
the
Kroll
process,
in
which
titanium
tetrachloride
(TiCl4)
is
reduced
with
magnesium
in
a
molten
salt
to
yield
metallic
titanium,
which
is
then
refined
by
processes
such
as
vacuum
arc
remelting.
Alternative
methods
include
the
FFC
Cambridge
process.
a
melting
point
of
about
1,668°C
and
a
density
of
roughly
4.5
g/cm3,
making
it
lighter
than
many
structural
metals
while
maintaining
high
strength.
It
resists
corrosion
from
seawater
and
most
acids,
especially
in
the
presence
of
its
native
oxide
layer.
marine
applications
due
to
strength,
lightness,
and
corrosion
resistance.
Ti-6Al-4V
is
a
common
alpha-beta
alloy
used
in
airframes
and
medical
implants.
Titanium
is
also
biocompatible,
used
for
implants
and
prosthetics,
and
is
employed
in
jewelry
for
its
stiffness,
non-reactivity,
and
color
retention.
Heinrich
Klaproth
in
1795
after
the
Titans
of
Greek
myth.
Commercial
metallic
titanium
emerged
in
the
mid-20th
century
through
the
Kroll
process.