Mayenite-supergroup minerals from burned dump of the Chelyabinsk Coal Basin

Three minerals of the mayenite supergroup have been found in fluorellestadite-bearing metacarbonate rock (former fragment of petrified wood of ankeritic composition) from the dump at the Baturinskaya-Vostochnaya-1-2 mine. These are eltyubyuite Ca₁₂Fe1°Si₄O3₂Cl6, its fluorine analog Ca₁₂Fe₁₀³⁺Si₄O₃₀F₁₀, and chlormayenite-wadalite Ca₁₂(Al,Fe)₁₄O₃₂Cl₂-Ca₁₂(Al,Fe)₁₀Si₄O₃₂Cl₂. The first two phases occur in the reaction mantle around hematite, magnesioferrite, and Ca-ferrite aggregates (“calciohexaferrite” CaFe₁₂O₁₉, “grandiferrite” CaFe₄O₇, and “dorrite phase” Ca₂(Fe₅^3 +Mn0^0.5Mg_0.5)(Si_0.5Fe_5.5³⁺)O₂₀) and, rarely, as individuals in grained aggregates of fluorellestadite-cuspidine (± lar- nite ± rusinovite Ca₁₀(Si₂O₇)₃Cl₂). Assemblages of zoned chlormayenite-wadalite crystals are found in grained aggregates of fluorellestadite- cuspidine, which lack Ca-ferrite. Also, harmunite CaFe₂O₄, chlorellestadite, fluorapatite, anhydrite, rondorfite CasMg(SiO₄)₄Cl₂, fluorine analog of rondorfite CasMg(SiO₄)₄F₂, “Mg-cuspidine” Ca_3.5(Mg,Fe)_0.5(Si₂O₇)F₂, fluorite, barioferrite BaFe₁₂O₁9, zhangpeishanite BaFCl, and other rare phases are identified in this rock. Data on the chemical composition and Raman spectroscopy of the mayenite-supergroup minerals are given. The genesis of metacarbonate rock is considered in detail: “oxidizing calcination” of Ca-Fe-carbonates with the formation of hematite and lime; reaction between hematite and lime with the formation of different Ca-ferrites; formation of larnite as a result of reaction between SiO₂ and lime or CaCO₃; and reactionary impact of hot Cl-F-S-bearing gases on early assemblages. Eltyubyuite and its fluorine analog crystallized at the stages of gas impact. It is presumed that the maximum temperature during the formation of rock reached 1200–1230 °C. © 2015, V.S. Sobolev IGM, Siberian Branch of the RAS. Published by Elsevier B.V. All rights reserved.