| | Journal (article/letter/editorial) | and Fe–Ni minerals in the Sartohay podiform chromitite (west Junggar, China): implications for T–pH–fO2–fS2...and Fe–Ni minerals in the Sartohay podiform chromitite (west Junggar, China): implications for T–pH–fO2–fS2...and Fe–Ni minerals in the Sartohay podiform chromitite (west Junggar, China): implications for T–pH– fO2–fS2...Space Sciences, Peking University, Beijing 100871, China (corresponding author: yfzhu@pku.edu.cn) ABSTRACT...chromite) discovered in the Sartohay podiform chromitite hosted by the Sartohay ophiolitic mélange in west | | Zhu, Yongfeng, Tan, Juanjuan, Qiu, Tian (2016) Platinum group mineral (PGM) and Fe–Ni–As–S minerals in the Sartohay chromitite, Xinjiang (NW China): Implications for the mobility of Os, Ir, Sb, and As during hydrothermal processes. Ore Geology Reviews, 72. 299-312 doi:10.1016/j.oregeorev.2015.08.001 | Journal (article/letter/editorial) | and Fe–Ni–As–S minerals in the Sartohay chromitite, Xinjiang (NW China): Implications for the mobility...University, Beijing 100871, China Wuhan Center of Geological Survey, Wuhan 430223, China a r t i c l e i n...mélange Sartohay Junggar a b s t r a c t The Sartohay chromitite deposit, hosted in the Sartohay ophiolite...ophiolite mélange in western Junggar (Xinjiang province, NW China), contains irarsite, breithauptite, and...millerite–godlevskite–irarsite-dominated assemblage in the Sartohay chromitites suggests a complex evolutionary path | | | Journal (article/letter/editorial) | Mo deposits in Northwest China: Geology, geochemistry, geochronology and tectonic setting...Yan-Jing, Zhou, Ke-Fa, Mo deposits in Northwest China: Geology, geochemistry, geochronology and tectonic...Northwest China: geology, geochemistry, IP T geochronology and tectonic setting a Xinjiang Research...Research Center for Mineral Resources, Xinjiang Institute of Ecology and Geography, Key Laboratory of Orogen...Beijing 100871, China State Key Laboratory of Geological Processes and Mineral Resources, China University | | | Journal (article/letter/editorial) | Hegenshan podiform chromitites (Inner Mongolia, China): Sub-solidus cooling and hydrothermal alteration...Hegenshan podiform chromitites (Inner Mongolia, China): Sub-solidus cooling and hydrothermal alteration...Hegenshan podiform chromitites (Inner 2 Mongolia, China): Sub-solidus cooling and hydrothermal alteration...Sciences, Peking 7 University, Beijing 100871, China 8 *Corresponding author, E-mail: yfzhu@pku.edu...ophiolitic complex from the Inner Mongolia 12 of China display massive, semi-massive, and disseminated | | Shen, Ping, Pan, HongDi, Cao, Chong, Zhong, Shihua, Li, Changhao (2017) The formation of the Suyunhe large porphyry Mo deposit in the West Junggar terrain, NW China: Zircon U–Pb age, geochemistry and Sr–Nd–Hf isotopic results. Ore Geology Reviews, 81. 808-828 doi:10.1016/j.oregeorev.2016.02.015 | Journal (article/letter/editorial) | porphyry Mo deposit in the West Junggar terrain, NW China: Zircon U–Pb age, geochemistry and Sr–Nd–Hf isotopic...porphyry Mo deposit in the West Junggar terrain, NW China: Zircon U–Pb age, geochemistry and Sr–Nd–Hf isotopic...porphyry Mo deposit in the West Junggar terrain, NW China: Zircon U-Pb age, geochemistry and Sr– T Nd–Hf...Beijing 100029, China NU 2 College of Earth Sciences, Chang’an University, Xi’an 710054, China Abstract...terrain, Xinjiang, NW China, is the largest porphyry D Mo deposit discovered in Xinjiang so far. The | | Pujol-Solà, Núria, Proenza, Joaquín, Garcia-Casco, Antonio, González-Jiménez, José, Andreazini, Aleu, Melgarejo, Joan, Gervilla, Fernando (2018) An Alternative Scenario on the Origin of Ultra-High Pressure (UHP) and Super-Reduced (SuR) Minerals in Ophiolitic Chromitites: A Case Study from the Mercedita Deposit (Eastern Cuba). Minerals, 8 (10). 433pp. doi:10.3390/min8100433 | Journal (article/letter/editorial) | Mercedita Mine. Mayarí‐Baracoa Ophiolitic Belt (MBOB) showing the location of the Mercedita Mine. 2.1....sulfides of Ni (millerite) and Cu (chalcopyrite, chalcocite). Far from the alteration-induced rim and cracks...microprobe analyses of chromite from the Mercedita mine. Sample TiO2 (wt %) Al2 O3 V2 O3 Cr2 O3 Fe2 O3 *...sulfides of Ni (millerite) and Cu (chalcopyrite, chalcocite). Figure 3. Mercedita chromite composition diagrams:...Si Native Ni, Co, Ce, Fe, Cr, Zn, PGE Iron-Wustite (Fe-FeO) Alloys (Fe-Mn, Fe-Cr, Fe-Co) Alm garnet Andalusite | | Kapsiotis, A., Grammatikopoulos, T. A., Tsikouras, B., Hatzipanagiotou, K., Zaccarini, F., Garuti, G. (2009) CHROMIAN SPINEL COMPOSITION AND PLATINUM-GROUP ELEMENT MINERALOGY OF CHROMITITES FROM THE MILIA AREA, PINDOS OPHIOLITE COMPLEX, GREECE. The Canadian Mineralogist, 47 (5) 1037-1056 doi:10.3749/canmin.47.5.1037 | Journal (article/letter/editorial) | used. We used Ka X-ray lines used for S, As, Fe, Ni, Co and Cu, La lines for Ru, Ir, Rh, Pt and Ag, Lb for...Awr: awaruite, Os–Lrt: osmium-rich laurite, Cc: chalcocite. mineralogy of chromitites, pindos ophiolite...Andrews (2001). The BMS is rich in Cu (namely chalcocite) and of secondary origin, probably after chalcopyrite...evolution in the Sartohay high-Al chromite deposits of the Dalabute ophiolite (NW China). J. Asian Earth | | González-Jiménez, J.M., Proenza, J.A., Gervilla, F., Melgarejo, J.C., Blanco-Moreno, J.A., Ruiz-Sánchez, R., Griffin, W.L. (2011) High-Cr and high-Al chromitites from the Sagua de Tánamo district, Mayarí-Cristal ophiolitic massif (eastern Cuba): Constraints on their origin from mineralogy and geochemistry of chromian spinel and platinum-group elements. Lithos, 125 (1) 101-121 doi:10.1016/j.lithos.2011.01.016 | Journal (article/letter/editorial) | alloy/oxides (?): 13–14. Ir Ru Pt Pd Rh Fe Cr Ni Cu Co S As Total Raw analyses (wt.%) 1 33.44 2 10.81...2007); Poum, New Caledonia (Leblanc, 1995); Luobusa, China (Zhou and Bai, 1992; Zhou and Robinson, 1994; Peng...Japan (Arai, 1997 in Ahmed et al., 2001); Sartohay, China (Zhou and Bai, 1992; Zhou and Robinson, 1994;...inclusions of Ni–Cu–Fe sulfides (mainly millerite, chalcocite and pentlandite) occur aligned in bands defining...[chalcopyrite (CuFeS2), bornite (Cu5FeS4) and chalcocite (Cu2S)], pentlandite [(Ni,Fe)9S8], awaruite (Ni3Fe) |
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