Difference between revisions of "Chromium Ore"
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{{Infobox_Minerals | {{Infobox_Minerals | ||
− | | image = | + | | image = Chromium_ore-1.jpg |
− | | origin = | + | | origin = See text |
− | | stowage factor = | + | | stowage factor = 0,33/0,45 m<sup>3</sup>/t (bulk) |
| humidity and moisture = - | | humidity and moisture = - | ||
− | | ventilation = | + | | ventilation = No special requirements |
− | | risk factors = | + | | risk factors = See text |
}} | }} | ||
+ | __TOC__ | ||
==Description== | ==Description== | ||
− | + | Chromium ore is a natural mineral formation (lumpy, dark grey in colour) containing chromium in such compounds and concentrations as to make its commercial exploitation technically feasible and economically expedient.<br><br> | |
− | + | The only chromium-containing minerals that provide an industrial source of chromium are the chrome spinellids. In addition to chrome spinellids, the primary minerals of chrome [[ores]] are the silicates, including serpentine, chlorite, and sometimes olivine, pyroxene, plagioclase, uvarovite, chrome actinolite, talc, and brucite, and the carbonates and sulfides.<br><br> | |
− | Heating causes decomposition, forming toxic fumes of lead.<br><br> | + | A distinction is made between solid and impregnated chrome ores. The latter are further subdivided into densely impregnated (50–80 percent chrome spinellids), heavily impregnated (30–50 percent), and lightly impregnated (10–30 percent). Different combinations of massive structures with banded, mottled, nodular, and other types of structures are observed. The quantity of the leading components in chrome ores varies as follows: 10.5–62.0 percent by weight Cr203, 4.0–34.0 percent Al2O3, 1.0–18.0 percent Fe2O3, 7.0–24.0 percent FeO, 10.5–33.0 percent MgO, and 0.4–27.0 percent SiO2. Certain chrome ores contain 0.1–0.2 g/ton of the platinum group elements and up to 0.2 g/ton of gold. The harmful impurities S, P, and Ca constitute more than 1.0 percent.<br><br> |
− | A characteristic of chromium ore is that it | + | The chief deposits of chrome ores in the USSR are in the Urals at the Donskoe and Sarany deposits. The principal deposits abroad are in the Republic of South Africa (the Bushveld complex), Zimbabwe (the Great Dike and Selukwe), Turkey (Guleman and elsewhere), the Philippines (primarily on the island of Luzon, at Masinloc and elsewhere), India (Sukinda and elsewhere), Finland (Kemi), and Madagascar (Andriamena).<br><br> |
− | + | ==Application== | |
− | + | Chromium ore is primarily consumed for the production of Ferrochrome, a key ingredient in the manufacture of stainless steel. Other uses for chromium ore are refractory and foundry applications.<br><br> | |
+ | ==Shipment / Storage== | ||
+ | Heating causes decomposition, forming toxic fumes of lead.<br><br> | ||
+ | A characteristic of chromium ore is that it can settle into a compact mass during the voyage making it impossible to discharge from containers by gravity. Chromium ore contains more than 3 to 4% moisture and in settling may behave like a slimy mass as a result of the movements of the ship. Must not be placed in contact with manganese ore. Exposure limit covers all hexavalent chromium compounds as Cr.<br><br> | ||
+ | ==Risk factors== | ||
+ | Reference is made to the IMSBC (International Maritime Solid Bulk Cargoes Code). | ||
+ | |||
+ | [[Category:Products]] | ||
[[Category:Minerals and rocks]] | [[Category:Minerals and rocks]] | ||
− |
Latest revision as of 10:24, 13 January 2021
Infobox on Chromium Ore | |
---|---|
Example of Chromium Ore | |
Facts | |
Origin | See text |
Stowage factor (in m3/t) | 0,33/0,45 m3/t (bulk) |
Humidity / moisture | - |
Ventilation | No special requirements |
Risk factors | See text |
Chromium Ore
Description
Chromium ore is a natural mineral formation (lumpy, dark grey in colour) containing chromium in such compounds and concentrations as to make its commercial exploitation technically feasible and economically expedient.
The only chromium-containing minerals that provide an industrial source of chromium are the chrome spinellids. In addition to chrome spinellids, the primary minerals of chrome ores are the silicates, including serpentine, chlorite, and sometimes olivine, pyroxene, plagioclase, uvarovite, chrome actinolite, talc, and brucite, and the carbonates and sulfides.
A distinction is made between solid and impregnated chrome ores. The latter are further subdivided into densely impregnated (50–80 percent chrome spinellids), heavily impregnated (30–50 percent), and lightly impregnated (10–30 percent). Different combinations of massive structures with banded, mottled, nodular, and other types of structures are observed. The quantity of the leading components in chrome ores varies as follows: 10.5–62.0 percent by weight Cr203, 4.0–34.0 percent Al2O3, 1.0–18.0 percent Fe2O3, 7.0–24.0 percent FeO, 10.5–33.0 percent MgO, and 0.4–27.0 percent SiO2. Certain chrome ores contain 0.1–0.2 g/ton of the platinum group elements and up to 0.2 g/ton of gold. The harmful impurities S, P, and Ca constitute more than 1.0 percent.
The chief deposits of chrome ores in the USSR are in the Urals at the Donskoe and Sarany deposits. The principal deposits abroad are in the Republic of South Africa (the Bushveld complex), Zimbabwe (the Great Dike and Selukwe), Turkey (Guleman and elsewhere), the Philippines (primarily on the island of Luzon, at Masinloc and elsewhere), India (Sukinda and elsewhere), Finland (Kemi), and Madagascar (Andriamena).
Application
Chromium ore is primarily consumed for the production of Ferrochrome, a key ingredient in the manufacture of stainless steel. Other uses for chromium ore are refractory and foundry applications.
Shipment / Storage
Heating causes decomposition, forming toxic fumes of lead.
A characteristic of chromium ore is that it can settle into a compact mass during the voyage making it impossible to discharge from containers by gravity. Chromium ore contains more than 3 to 4% moisture and in settling may behave like a slimy mass as a result of the movements of the ship. Must not be placed in contact with manganese ore. Exposure limit covers all hexavalent chromium compounds as Cr.
Risk factors
Reference is made to the IMSBC (International Maritime Solid Bulk Cargoes Code).