Chemical data for Al - Aluminum |


Atomic Number: 13
Atomic Weight: 26.98154
Element Type: Metal
Crystal Structure: Cubic Face Centered
Melting Point: 660.32°C = 1220.576°F = 933.47 K
Boiling Point: 2519.0°C = 4566.2°F = 2792.15 K
Critical Temp: °C = °F = K
Atomic Radius: 1.82 Å (Å = Angstrom = 10-10 m)
Covalent Radius: 1.18 Å
Electronegativity: 1.61


(L. alumen, alum) The ancient Greeks and Romans used alum as an astringent and as amordant in dyeing. In 1761 de Morveau proposed the name alumine for the base in alum, andLavoisier, in 1787, thought this to be the oxide of a still undiscovered metal.

Wohler is generally credited with having isolated the metal in 1827, although an impureform was prepared by Oersted two years earlier. In 1807, Davy proposed the name aluminumfor the metal, undiscovered at that time, and later agreed to change it to aluminum.Shortly thereafter, the name aluminum was adopted to conform with the "ium"ending of most elements, and this spelling is now in use elsewhere in the world.

Aluminium was also the accepted spelling in the U.S. until 1925, at which time theAmerican Chemical Society officially decided to use the name aluminum thereafter in theirpublications.


The method of obtaining aluminum metal by the electrolysis of alumina dissolved incryolite was discovered in 1886 by Hall in the U.S. and at about the same time by Heroultin France. Cryolite, a natural ore found in Greenland, is no longer widely used incommercial production, but has been replaced by an artificial mixture of sodium, aluminum,and calcium fluorides.

Aluminum can now be produced from clay, but the process is not economically feasible atpresent. Aluminum is the most abundant metal to be found in the earth's crust (8.1%), butis never found free in nature. In addition to the minerals mentioned above, it is found ingranite and in many other common minerals.