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alüminyum

Alüminyum, usually referred to in English as aluminum, is a chemical element with the symbol Al and atomic number 13. It is the third most abundant element in the Earth's crust and the most common lightweight metal. It is soft and ductile, with a density of about 2.7 g/cm³ and a high strength-to-weight ratio when alloyed. A thin oxide layer forms rapidly on exposed surfaces, giving corrosion resistance and enabling wide use in various environments. It conducts heat and electricity reasonably well and reflects light, which is useful in coatings and packaging.

Occurrence and production: Most aluminum is derived from bauxite ore. The Bayer process produces alumina (Al2O3)

Alloys and applications: Aluminum is commonly alloyed with magnesium, silicon, or other elements to enhance strength

Environmental and safety considerations: Solid aluminum is non-toxic, but handling fine powders or dust can pose

History: Aluminum was first isolated in 1825 by Hans Christian Ørsted and later refined by Friedrich Wöhler.

from
bauxite,
and
the
Hall-Héroult
electrolytic
process
reduces
alumina
to
metallic
aluminum.
Global
production
is
concentrated
in
a
few
countries,
with
major
producers
including
China,
Russia,
Canada
and
Australia.
Aluminum
is
highly
recyclable;
recycled
metal
requires
only
a
fraction
of
the
energy
of
primary
production.
and
stiffness.
It
is
widely
used
in
aerospace,
automotive,
construction,
packaging
(foil
and
cans),
electrical
components,
and
consumer
electronics,
as
well
as
in
architectural
and
consumer
goods
due
to
its
formability
and
corrosion
resistance.
fire
or
explosion
risks.
Mining
of
bauxite
and
primary
smelting
energy
use
have
environmental
impacts;
recycling
reduces
energy
use
and
emissions.
Large‑scale
production
began
after
the
development
of
the
Hall-Héroult
electrolysis
process
in
1886
by
Charles
Martin
Hall
and
Paul
Héroult.