METALLURGIES OF SPECIFIC METALS
The metallurgies of Mg, Al, Fe, Cu, and Au will be discussed as specific examples. The
order of increasing standard reduction potentials of these metals indicates the order of
increasing ease of reduction to the free metals.Standard Reduction
Reduction Half-Reaction Potential E^0 , VoltsMg^2 2 e88nMg 2.37
Al^3 3 e88nAl 1.66
Fe^2 2 e88nFe 0.44
Cu^2 2 e88nCu 0.337
Au^3 3 e88nAu 1.50MAGNESIUM
Magnesium occurs widely in carbonate ores, but most Mg comes from salt brines and
from the sea (Figure 22-5). Sea water is 0.13% Mg by mass. Because of its low density
(1.74 g/cm^3 ), Mg is used in lightweight structural alloys for such items as automobile and
aircraft parts.
Magnesium ions are precipitated as Mg(OH) 2 by addition of Ca(OH) 2 (slaked lime) to
sea water. The slaked lime is obtained by crushing oyster shells (CaCO 3 ), heating them
to produce lime (CaO), and then adding a limited amount of water (slaking).22-5
908 CHAPTER 22: Metals I: Metallurgy
Mg and Al are active metals, Fe and
Cu are moderately active, and Au is
relatively inactive.
CaCO 3 →CaO + CO 2 CaO + H 2 O→Ca(OH) 2Lime kilns SlakerMgCl 2 + Ca(OH) 2 →
Mg(OH) 2 + CaCl 2Settling
tankMg(OH) 2 + 2HCl→
MgCl 2 + 2H 2 OFilter
Mg(OH) 2HClChlorine
gasDilute
MgCl 2
soln.EvaporatorsMgCl 2 soln.Electrolytic cellsMgCl 2 →Mg + Cl 2MgDryers Conc.Hydrochloric
acid plantOyster
shells
CaCO 3Ocean waterINTAKE FLUMEStrainersFigure 22-5 Schematic diagram of an industrial plant for the production of magnesium
from the Mg^2 ions in sea water.