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Properties of the Elements and Inorganic Compounds
Published in W. M. Haynes, David R. Lide, Thomas J. Bruno, CRC Handbook of Chemistry and Physics, 2016
W. M. Haynes, David R. Lide, Thomas J. Bruno
Name Manganese(II) sulfide ( form) Manganosite Marcasite Margarite Marialite Marshite Massicot Matlockite Maucherite Meionite Melanophlogite Melonite Metacinnabar Miargyrite Microcline Fe-Microcline Miersite Millerite Minnesotaite Molybdenite Molybdenum Monticellite Montroydite Mullite (2:1) Mullite (3:2) Muscovite Nacrite Nantokite Natroalunite Natrolite Neighborite Nickel Nickel(II) carbonate Nickel olivine Nickel selenide [NiSe2] Niter Norsethite Oldhamite Orpiment Orthoclase Orthoferrosilite Otavite Paracelsian Paragonite Pararammelsbergite Paratellurite Parawollastonite Pectolite Pentlandite Periclase Petalite Petzite Phenacite Phlogopite Picrochromite Piemontite Platinum Formula Crystal system hexagonal cubic orthorhombic monoclinic tetragonal cubic orthorhombic tetragonal tetragonal tetragonal cubic hexagonal cubic monoclinic triclinic triclinic cubic rhombohedral monoclinic hexagonal cubic orthorhombic orthorhombic orthorhombic orthorhombic monoclinic monoclinic cubic rhombohedral orthorhombic orthorhombic cubic rhombohedral orthorhombic cubic orthorhombic rhombohedral cubic monoclinic monoclinic orthorhombic rhombohedral monoclinic monoclinic orthorhombic tetragonal monoclinic triclinic cubic cubic monoclinic cubic rhombohedral monoclinic cubic monoclinic cubic Structure type zincite rock salt marcasite 2M mica Z a/Å 3.976 4.4448 4.443 5.13 12.064 6.0507 5.489 4.106 6.870 12.174 13.402 3.869 5.8517 12.862 8.582 8.68 6.4963 9.616 5.4 3.1604 3.1653 4.827 6.608 7.5788 7.557 5.203 8.909 5.416 6.974 18.30 5.363 3.5238 4.5975 4.727 5.9604 6.431 5.020 5.689 11.49 8.562 9.080 4.9204 8.58 5.13 5.75 4.810 15.417 7.99 10.095 4.2117 11.32 10.38 12.472 5.326 8.333 8.95 3.9231 b/Å c/Å 6.432 3.3876 19.50 7.514 5.891 7.23 21.81 7.652 5.308 4.111 12.964 13.10 13.220 7.222 7.340 3.152 19.4 12.295 6.376 3.519 2.8883 2.8842 20.030 15.697 16.69 6.60 5.503 14.723 5.915 5.414 16.75 4.25 7.193 5.238 16.298 9.08 19.32 11.428 7.613 7.066 7.02 90.45 116.02 98.63 115.92 116.05 /° /°
High-Temperature Oxidation of Bismuth- and Antimony-Based Sulfosalts
Published in Mineral Processing and Extractive Metallurgy Review, 2019
Fiseha Tesfaye, Dmitry Sukhomlinov, Daniel Lindberg, Mykola Moroz, Pekka Taskinen, Leena Hupa
Ag, Pb, As, Bi, and Sb bearing sulfides and sulfosalts are frequently encountered together with the main metal ore minerals. The Ag-Sb-Bi-ternary sulfosalts in these ores such as AgBiS2 and AgSbS2 are also common sources of Ag, which is carefully recovered as a co-product in the base metals (Cu and Pb) production circuits. Samples of hydrothermal vein-type and epithermal Cu-Ag-rich ores including matildite (β-AgBiS2) and schapbachite (α-AgBiS2) are reported to occur in central-south Europe (Damian et al. 2008; Staude et al. 2010; Kopp et al. 2012). Among the Ag-(Sb, Bi, As)-based sulfosalts, miargyrite (AgSbS2) and pyrargyrite (Ag3SbS3) are dominantly associated with high-grade silver ores (Crowley et al. 1997).