Gibbsite and Boehmite in Weathering Crusts of Different Ages Affected by Lateritization: Location and Formation

Gibbsite and Boehmite in Weathering Crusts of Different Ages Affected by Lateritization: Location and Formation

The main source of aluminum is bauxite ores and their basic mineral components gibbsite Al(OH) 3 and boehmite AlO(OH). Alumina Al 2 O 3 is formed by various methods of decomposition of these components, electrolytically decomposed to pure Al. It has been established that gibbsite is the basic and of...

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Veröffentlicht in:Doklady earth sciences 2022-06, Vol.504 (2), p.353-361
Hauptverfasser: Boeva, N. M., Makarova, M. A., Shipilova, E. S., Slukin, A. D., Soboleva, S. V., Zhegallo, E. A., Zaitseva, L. V., Bortnikov, N. S.
Format: Artikel
Sprache:eng
Schlagworte:
Aluminium
Aluminum
Aluminum compounds
Aluminum oxide
Bauxite
Bayer process
Bleaching
Boehmite
Cenozoic
Components
Concretions
Crusts
Decomposition
Earth and Environmental Science
Earth Sciences
Gibbsite
Laterites
Mesozoic
Mineralogy
Ores
Oxidation
Paleozoic
Sediments
Sediments (Geology)
Weathering
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Zusammenfassung:The main source of aluminum is bauxite ores and their basic mineral components gibbsite Al(OH) 3 and boehmite AlO(OH). Alumina Al 2 O 3 is formed by various methods of decomposition of these components, electrolytically decomposed to pure Al. It has been established that gibbsite is the basic and often the only mineral of aluminum in the Mesozoic and Cenozoic laterite bauxites, representing most of the world’s reserves. Boehmite is formed in laterite-sedimentary bauxites, during lateritization and desilication of albic water-sedimentary continental sediments, as well as the underlying bleached parent rocks. The formation of boehmite is associated with an excess of aluminum generally due to its input from above. Boehmite predominates in the Paleozoic laterites. The formation of aluminum monohydrate is explained by a decrease in the oxidation–reduction potential.
ISSN:1028-334X
1531-8354
DOI:10.1134/S1028334X22060046