机构地区:[1]State Key Laboratory of Geological Processes and Mineral Resources,School of Earth Science and Resources,China University of Geosciences [2]Development and Research Center of China Geology Survey
出 处:《Science China Earth Sciences》2014年第4期644-661,共18页中国科学(地球科学英文版)
基 金:financially supported by the Key Program of National Natural Science Foundation of China(Grant No.90914002);the Ore-Prospecting Project for Critical Mines(Grant No.20089937);Scheduled Program of China Geological Survey(Grant No.1212011220926);the Institution of Higher Education Innovation and Intelligence Attraction Program(Grant No.B07011)
摘 要:This paper reports the variation rules for the typomorphic parameters of the pyrite and the gold enrichment rules of the Denggezhuang quartz vein gold deposit at a large-depth scale, providing the mineral signs for deep prospecting prediction through detailed study of the characteristics of crystal' habits, chemical composition, the thermoelectricity of pyrites, and min- eralogical mapping. This paper primarily discusses the correlation between the mineralization intensity and the space-time evolution of the mineralogical parameters, clarifies the physicochemical conditions during gold mineralization, and provides information useful for deep mineralization prediction. We demonstrate that the crystal habits of the pyrites are very complex, primarily occurring as ( 100), (210), and their combinate form. (210) and ( 100)+(210) have positive correlations with gold mineralization, and ( 100)+(210) therefore can be useful for locating rich ore segments. The composition of pyrites is charac- teristically poor in S and rich in As. Their typical trace elements are composed of Mo, As, Pb, Cu, Bi, Zn, Au, Co, Se, Sb, Ag, Ni, Cr, and Te. The average contents of trace elements in pyrites from various stages show that the crystallizing temperature gradually decreased from an early stage to the metallogenic episodes. The precipitation and accumulation of Au and Ag occur primarily in the quartz-pyrite stage (III) and the polymetal minerals stage (IV). The occurrence rate of P-type pyrites (P(%)) is 83.52%. There is a larger dispersion of the thermoelectrical coefficient of pyrite (a) in the Denggezhuang gold deposit than in other deposits in the Jiaodong Peninsula. The electrical conductivity assemblage of pyrites from I to V is characterized by P〉N〉P〉N〉P〉〉N〉P〉〉N〉P〉N, which is usually considered beneficial for mineralization. The relative contents of As+Sb+Se+Te and Co+Ni are closely correlated to P-type and N-type average values and their occurrThis paper reports the variation rules for the typomorphic parameters of the pyrite and the gold enrichment rules of the Denggezhuang quartz vein gold deposit at a large-depth scale,providing the mineral signs for deep prospecting prediction through detailed study of the characteristics of crystal' habits,chemical composition,the thermoelectricity of pyrites,and mineralogical mapping.This paper primarily discusses the correlation between the mineralization intensity and the space-time evolution of the mineralogical parameters,clarifies the physicochemical conditions during gold mineralization,and provides information useful for deep mineralization prediction.We demonstrate that the crystal habits of the pyrites are very complex,primarily occurring as {100},{210},and their combinate form.{210} and {100}+{210} have positive correlations with gold mineralization,and {100}+{210} therefore can be useful for locating rich ore segments.The composition of pyrites is characteristically poor in S and rich in As.Their typical trace elements are composed of Mo,As,Pb,Cu,Bi,Zn,Au,Co,Se,Sb,Ag,Ni,Cr,and Te.The average contents of trace elements in pyrites from various stages show that the crystallizing temperature gradually decreased from an early stage to the metallogenic episodes.The precipitation and accumulation of Au and Ag occur primarily in the quartz-pyrite stage(III) and the polymetal minerals stage(IV).The occurrence rate of P-type pyrites(P(%)) is 83.52%.There is a larger dispersion of the thermoelectrical coefficient of pyrite(α) in the Denggezhuang gold deposit than in other deposits in the Jiaodong Peninsula.The electrical conductivity assemblage of pyrites from I to V is characterized by P≥N→P>N→P>>N→P>>N→P≥N,which is usually considered beneficial for mineralization.The relative contents of As+Sb+Se+Te and Co+Ni are closely correlated to P-type and N-type average values and their occurrence rates.According to the crystallizing temperature of pyrite,the mineralization intensity,and the denudation degre
关 键 词:crystal habit chemical composition THERMOELECTRICITY PYRITE the Denggezhuang gold deposit Jiaodong
分 类 号:TF041[冶金工程—冶金物理化学]
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