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Lecture 18 (11/29/2006) Systematic Description of Minerals Part 2: Oxides, Hydroxides Halides, Carbonates, Sulfates, and Phosphates. Oxides. Three main groups based on metal cation/oxygen ratios Hematite Group (X 2 O 3 ) Corundum X=Al +3 most phases hexagonal Hematite X=Fe +3
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Lecture 18 (11/29/2006)Systematic Description of MineralsPart 2:Oxides, Hydroxides Halides, Carbonates, Sulfates, and Phosphates
Oxides Three main groups based on metal cation/oxygen ratios Hematite Group (X2O3) Corundum X=Al+3 most phases hexagonal Hematite X=Fe+3 Ilmenite X=1Fe+2+1Ti+4 Rutile Group (XO2) Rutile X=Ti x- +4 cation Pyrolusite X=Mn most phases tetragonal Cassiterite X=Sn Uraninite X=U Spinel Group (XY2O4) Spinel X=Mg, Y=Al X- +2 ; Y- +3 cation Magnetite X=Fe+2, Y=Fe+3 most phases isometricChromite X=Fe+2, Y=Cr or orthorhombic Chrysoberyl X=Be, Y=Al Ulvospinel X=Ti+4, Y=Fe+2
Fe-Ti oxides Fe+2 Fe+3
Spinel Group (XY2O4) Gem-quality Spinels
Other Common Oxides Corundum (Al2O3) Rutile (TiO2) Hardness=9 Rutile needles in Quartz Pyrolusite (MnO2) Blue = Sapphire Red = Ruby Chrysoberyl (BeAl2O4) Pyrolusite dendrites on fracture faces Mass of botryoidal Pyrolusite Cyclic twinning in Chrysoberyl
Hydroxides (OH)- main anionic group forming octahedrally coordinated sheets with weak bonds between Two structural types: Brucite-type – trioctahedral sheets (all octahedral cation sites are filled) Gibbsite-type – dioctahedral sheets (only two of three octahedral sites are filled)
Common Types of Hydroxides Brucite Mg(OH)2 Gibbsite Al(OH)3 Manganite MnO(OH) Diaspore AlO(OH) Goethite FeO(OH) Bauxite Al-hydroxide* *hybrid mix of diaspore, gibbsite, and boehmite (AlO(OH))
Halides • Simple compounds composed of large halogen anions (Cl, Br, F, I) • Typically isometric • Dominantly ionic bonding • Properties – low hardness, high melting points, poor conductors (except at high temperatures)
Common Halides Halite (NaCl) Sylvite (KCl) Flourite (CaF2)
Mineral Groups formed with Anionic Complexes Carbonates Sulfates Phosphates Silicates Amount of residual charge indicates relative strength bonds with cations, which reflected in the hardness of the mineral
Carbonates Aragonite (High-P) Orthorhombic Calcite (Low-P - Hexagonal) Most are Hexagonal
Other Carbonates Azurite - Cu3(CO3)2(OH)2 (Blue) Malachite – Cu2CO3(OH)2 (Green) Rhodochrosite – MnCO3
Borates Kernite – Na2B4O6(OH)2·3H2O Borax - Na2B4O5(OH)4·8H2O Ulexite – NaCaB5O6(OH)6·5H2O H – 3; SG – 1.95 H – 2-2.5; SG – 1.7 H – 1-2.5; SG – 1.96 “Television Rock”
Sulfates HYDROUS ANHYDROUS H: 2 SG: 2.32 H: 3-3.5 SG: 2.9 Gypsum – CaSO4·2H2O Anhydrite – CaSO4 H: 4 SG: ~2.7 H: 3-3.5 SG: 4.5 Alunite – KAl3(SO4)2(OH)6 Barite – BaSO4
Tungstates & Molybdates Woframite – (Fe,Mn)WO4 SG: 7-7.5 Scheelite – CaWO4 SG: ~6 Wulfenite – PbMoO4 SG: 6.8
Phosphates • Apatite – Ca5(PO4)3(F,Cl,OH) • prismatic hexagonal crystals • common in igneous rocks and hydrothermal deposits - variable colors
Other Common Phosphates Monazite – (Ce,La,Y,Th)PO4 Ore mineral for Rare Earth Elements Useful mineral in U-Pb and Th age dating Wavellite – Al3(PO4)2(OH)3·5H2O Radiating globular aggregates Turquoise – CuAl6(PO4)4(OH)8·5H2O
Next Lecture 11/29/06 Systematic Description of Minerals Part 3: Silicates Read: Klein Chap. 11