排序方式: 共有89条查询结果,搜索用时 31 毫秒
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东天山镜儿泉铜镍矿床成矿预测及EH4地球物理测量依据 总被引:5,自引:1,他引:4
镜儿泉铜镍矿床产于东天山黄山-镜儿泉铜镍成矿带东部,是典型的岩浆熔离型铜镍硫化物矿床.岩体地质研究表明,基性-超基性葫芦岩体是一复式岩体,东部辉石岩相形成的小环切穿西部辉石岩相形成的大环,两环相交呈葫芦状.矿床形成受岩体控制,矿体呈似层状赋存于复式岩体西部辉石岩相的底部.EH4连续电导率成像仪测量结果清晰地反映了岩体的基本形态,识别了岩体的不同岩相:①超基性岩(1~300 Ωm)在南北剖面呈不对称的盆状,东西剖面呈东浅西深相交的盆状,含矿辉石岩相(130~300 Ωm)呈盆状分布于橄榄岩相(1~130 Ωm)外围;②中基性岩(500~1000 Ωm)包括辉长岩相和闪长岩相呈漏斗状分布于辉石岩相外围,漏斗状形态预示岩浆上升通道可能在矿区西南部.在此基础上,预测葫芦岩体地下250~450 m区段是最有希望的成矿区段. 相似文献
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EH4电磁系统的近源效应及其校正方法 总被引:13,自引:2,他引:11
EH4电磁系统要求在“远区”观测。当发—收距较小时,测点在人工源的低频段处于过渡带中,数据发生畸变,从而形成过渡带低谷。提出一种线性校正方法,可对过渡带数据进行校正。 相似文献
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草原覆盖区隐伏金属矿体定位预测——以大兴安岭中南段某铅锌矿点为例 总被引:7,自引:0,他引:7
草原区一般第四纪覆盖严重,为在草原浅层覆盖区有效地寻找、定位隐伏矿体,利用甚低频电磁法和EH4电磁成像系统开展了地球物理勘查工作。研究表明,甚低频电磁测量和EH4连续电导率剖面测量均能确定出明显的异常,且由两种技术手段得出的异常相互对应。说明甚低频电磁法和EH4电磁成像系统的联合应用是草原浅层覆盖区找寻隐伏矿体的有效技术方法。 相似文献
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Ping Shen Yuanchao Shen Tiebing Liu Heping Zhu Lijuan Wang Qingdong Zeng Guangming Li 《Resource Geology》2008,58(1):52-71
The Kuoerzhenkuola gold deposit is located in the Sawur gold belt in Xinjiang, China. An integrated geological, geochemical and geophysical investigation was carried out in the Kuoerzhenkuola gold deposit, to determine the extension of the principal mineralized system, in the search for new resources. Re‐examination of the rocks and structures in the Kuoerzhenkuola area showed that the study area features an elliptical caldera where the gold deposit lies. A re‐investigation of the mine geology found that the mineralization at the Kuoerzhenkuola gold deposit is not controlled by the EW‐striking regional fault as previously assumed, but by a caldera fracture system locally superimposed by regional faults; the host rocks are andesites and dacites of the Carboniferous Heishantou Group rather than the crypto‐explosive breccia of the Devonian Sawurshan Group. Gas components of fluid inclusions from quartz, trace element chemistry of pyrite and fluid inclusions in pyrite, Pb isotopes of pyrite, and whole‐rock geochemistry and Pb isotopes of the country rocks are used to study the source of fluids at Kuoerzhenkuola gold deposit. The ore‐forming fluids are characterized by low–moderate temperatures and low salinities estimated from fluid inclusion microthermometry. Quadrupole mass spectrometry indicated a CO2‐bearing fluid. Inductively coupled plasma–mass spectrometry of the fluid inclusions indicated high Cu (average 70 ppm) for the Au mineralization, whereas the host rocks have low Cu (average 33 ppm), indicating that Cu of the ore‐forming fluids originated from magmatic fluid rather than the volcanic rocks. Pb isotopes of ores and host volcanic rocks indicate a similar, mixed source and some Pb could be sourced from the volcanism. This implied that magmatic fluids could play an important role in the Au mineralization process. These new geological findings and the fluids derived mainly from the magmatic fluids suggest that the ore‐forming fluids originate at depth, and are transported and precipitated within the caldera fracture system. Thus, we proposed a conceptual target area at depth. A detailed Stratagem EH4 measurement was carried out to test the validity of the conceptual target. Stratagem EH4 soundings over six parallel traverses perpendicular to the mineralized trend showed that the caldera fracture system could extend for approximately 900 m in the dip direction at the center of the caldera, an indication of the presence of potential deep mineralization under the surveyed area. Detailed modeling of the Stratagem EH4 sounding images provided well‐defined targets for test drilling. Subsequent test drilling on one of these targets, which extends down 850 m at an angle of 87°, returned encouraging results because four core‐intercepts of gold ore bodies at down‐hole depths of 40.5–42.0 m, 70.5–73.5 m, 357.0–358.5 m, and 384.5–385.5 m and a long interval gold mineralized body (0–720 m) were encountered. 相似文献
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