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STRUSKY PO TAVBĚ POLYMETALICKÝCH RUD Z LOKALITY ČEJKOV-TRSOV (PELHŘIMOVSKÝ RUDNÍ REVÍR)
Author(s) -
Jaroslav Kapusta,
Zdeněk Dolníček,
Karel Malý
Publication year - 2016
Publication title -
geologické výzkumy na moravě a ve slezsku
Language(s) - English
Resource type - Journals
SCImago Journal Rank - 0.128
H-Index - 1
eISSN - 2336-4378
pISSN - 1212-6209
DOI - 10.5817/gvms2015-1-2-56
Subject(s) - fayalite , magnetite , spinel , mineralogy , orthoclase , electron microprobe , pyroxene , analytical chemistry (journal) , geology , albite , olivine , quartz , plagioclase , metallurgy , nuclear chemistry , materials science , chemistry , environmental chemistry
Slags after smelting of polymetallic ores occur at the locality Čejkov-Trsov which represents medieval smelting site and lies approximately 1 030 m SE from the center of the Čejkov village. Samples collected during archaeological excavation were obtained from the Museum Vysočiny Jihlava. Bulk chemical analyses show that studied slags are dominated by SiO2-FeO-Al2O3 oxides (sum of these three components is 75.27–88.81 wt. %). Unusual are high barium (up to 9.2 wt. % of Ba) and lead contents (up to 15.0 wt. % of Pb) as well as low zinc contents (230–3780 ppm). All samples except one are generally CaO poor (an exception is sample CT4 containing 6.03 wt. % CaO) which probably refl ect lack of CaO – based additives. Light microscopy and EDS analyses on an electron microprobe proved following phases: spinelides, olivine, feldspars, pyroxene, glass and quartz. Spinelides are the most variable in their composition ranging from almost pure magnetite (92 mol. % of magnetite, 5 mol. % of spinel and 3 mol. % of galaxite) to spinel-rich hercynite (50 mol. % of hercynite, 45 mol. % of spinel and 5 mol. % of magnetite). Olivine is represented by fayalite (89–90 mol. % Fa, 5–7 mol. % Te, 4–5 mol. % Fo). Newly formed feldspars are present in all studied samples and contain up to 22.8 wt. % of BaO (44–50 mol. % of orthoclase, 40–47 mol. % of celsiane and 9–11 mol. % of albite). Ca-Fe pyroxene (Fs52Wo38En11–Fs51Wo37En13) was formed probably due to high enough temperature and a sufficient CaO content. Cracked quartz grains are present within all samples. They were more or less corroded by a slag melt.

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