Xiang Sun
China University of Geosciences
3Publications
2H-index
13Citations
Publications 3
Newest
Published on Mar 1, 2018in Journal of Petrology 4.10
Xiang Sun2
Estimated H-index: 2
(China University of Geosciences),
Yongjun Lu16
Estimated H-index: 16
(University of Western Australia)
+ 4 AuthorsLi-Juan Xu1
Estimated H-index: 1
(China University of Geosciences)
1 Citations Source Cite
Published on Mar 1, 2018in Mineralium Deposita 3.37
Xiang Sun2
Estimated H-index: 2
(China University of Geosciences),
Youye Zheng7
Estimated H-index: 7
(China University of Geosciences)
+ 5 AuthorsHuifang Chang2
Estimated H-index: 2
(China University of Geosciences)
Several Au, Sb, Sb–Au, Pb–Zn, and Sb–Pb–Zn–Ag deposits are present throughout the North Himalaya in southern Tibet, China. The largest Sb–Pb–Zn–Ag deposit is Zhaxikang (18 Mt at 0.6 wt% Sb, 2.0 wt% Pb, 3.5 wt% Zn, and 78 g/t Ag). Zhaxikang veins are hosted within N–S trending faults, which crosscut the Early–Middle Jurassic Ridang Formation consisting of shale interbedded with sandstone and limestone deposited on a passive continental margin. Ore paragenesis indicates that Zhaxikang mineralizati...
7 Citations Source Cite
Published on Apr 1, 2017in Ore Geology Reviews 3.99
Xiang Sun2
Estimated H-index: 2
(China University of Geosciences),
Youye Zheng7
Estimated H-index: 7
(China University of Geosciences)
+ 5 AuthorsQingjie Song2
Estimated H-index: 2
(China University of Geosciences)
Abstract Porphyry systems are known to form in magmatic arc environment and commonly include porphyry Cu, epithermal Pb–Zn–Au–Ag, skarn polymetallic mineralization, etc. The systems are rarely reported in collisional zones, such as the Gangdese belt in southern Tibet where many postcollisional porphyry copper deposits occurred. In addition, other types of mineral systems are rarely present except porphyry copper mineralization in the Gangdese belt. In this study, we present Pb–Zn-bearing quartz ...
5 Citations Source Cite
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