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系统的矿相学研究表明,太阳山金矿矿石矿物主要为黄铁矿、磁黄铁矿、含银自然金、闪锌矿、黄铜矿;矿床围岩蚀变种类较多,主要有硅化、绢云母化、钾长石化、石墨化。矿石结构包括自形—半自形粒状结构、假象结构、压碎结构、包含结构、错断结构等,矿石构造包括浸染状、微脉浸染状、脉状、网脉状构造。金主要以包裹金、粒间金、裂隙金、赋存于石英、黄铁矿、磁黄铁矿中。矿区内常见的是碎裂岩和糜棱岩化岩石,很少见到糜棱岩,不存在超糜棱岩、构不成糜棱岩系列。本矿床地质特征与典型的破碎带蚀变岩型金矿山东焦家金矿极为相似。因此,太阳山金矿属于典型的破碎带蚀变岩型金矿。 相似文献
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黔东南金成矿区位于江南造山带金成矿省的西南端,成矿条件优越。坑头金矿床是黔东南金成矿区的一个中型矿床,在其深部找矿中,发现除石英脉型矿体外,还存在蚀变岩型矿体。然而,这种蚀变岩型矿体的构造形态、蚀变类型、与石英脉型矿体之间关系和金的赋存状态尚不清楚。本研究与当前的勘查工作紧密结合,围绕石英脉型矿体和新发现的蚀变岩型矿体为研究切入点,借助微区分析技术(扫描电镜和电子探针)进行系统的“流体-蚀变-成矿”研究。蚀变矿物金红石矿物化学显示为热液成因,具有典型造山型金矿床的金红石标型特征。围岩的沉积-成岩过程(包括低级变质作用过程),主要形成了草莓状黄铁矿和含铁碳酸盐岩,为后期含金硫化物(黄铁矿和毒砂)的形成提供物质基础(如Fe)。金的成矿富集过程主要经历了绢云母+毒砂+黄铁矿+石英(Ser+Apy+Py+Qtz)阶段、黄铁矿+毒砂+石英(Py+Apy+Qtz)阶段和自然金+石英(Au0+Qtz)阶段。在Ser+Apy+Py+Qtz阶段,主要表现为含矿流体与围岩的初级交代,形成大量浸染状黄铁矿+毒砂的硫化带;Py+Apy+Qtz阶段主要为流体沿着剪切带再交代,形成蚀变岩型矿... 相似文献
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新金厂金矿为中型高氧化蚀变岩型金矿床,矿体严格受断裂裂隙控制,多赋存于辉绿岩中。化学分析结果表明,矿石的有用组分单一,有害杂质少,金矿物主要为含银自然金。主要的金属矿物为黄铁矿、褐铁矿,同时也是主要的载金矿物;非金属矿物主要为石英、长石、绿泥石。矿石多具自形、半自形、他形粒状结构,以脉状、角砾状构造为主。人工重砂样品分析共获得147粒自然金,形态为蜂窝、树枝、不规则粒状等,赋存状态以裂隙金为主,其次为粒间金。包裹体金仅占10%。自然金为显微金。主要类型为石英细脉-碎裂蚀变岩型,破碎带中褐铁矿化、黄铁矿化、硅化强烈。次生氧化作用较强。 相似文献
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玲珑金矿田171号脉赋存于招平断裂北段破头青断裂中,在其深部探明金资源储量150余吨,确定其为超大型破碎带蚀变岩型金矿床。为了揭示构造与成矿、深部矿与浅部矿、石英脉型矿与蚀变岩型矿等的关系,为深部找矿提供典型实例和理论依据,文章通过大量矿区地质勘探、野外地质调查和区域地质综合研究,剖析了矿床特征,揭示了构造控矿规律。171号金矿脉深部共有7个金矿体,均为盲矿体。其中,171_1号主矿体埋深120~1700m,呈似层状、大脉状分布,沿走向及倾向显舒缓波状。矿体总体走向60°,倾向SE,倾角36.5~43.5°。矿体长2500m,斜深510~3100 m,平均厚度4.23 m,平均金品位2.71×10~(-6),矿石主要为黄铁绢英岩型(蚀变岩型)。矿脉和矿体受断裂构造控制,矿化、构造、蚀变分带具有一致性。由控矿断裂的主裂面至远离主裂面,构造变形强度由强变弱,蚀变强度和矿化强度也由强变弱。招平断裂是一条切割早期韧性剪切带的脆性断裂,总体呈舒缓波状展布,大部分地段发育于早前寒武纪变质岩系与侏罗纪玲珑型花岗岩之间,断裂上盘脆性变形较弱,下盘脆性变形带宽大,是沿不同时代地质体之间发育的左行铲式正断层,类似于拆离断层,是胶东白垩纪伸展构造的组成部分。玲珑金矿田是典型的石英脉型金矿产地,但大型金矿床多为赋存于断裂构造中的蚀变岩型金矿床,石英脉型金矿床与蚀变岩型金矿床是同一构造系统中不同构造位置的产物;一般在主断裂中赋存蚀变岩型金矿床,在主断裂下盘的次级张裂隙中产出石英脉型金矿床。胶东以正断层为主的伸展构造系统为大规模成矿提供了有利条件,构造、蚀变分带和不同类型金矿床的关系是金矿找矿的重要标志。 相似文献
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蚀变岩型金矿床中金常以"大颗粒金"形式存在,但针对其在蚀变矿化带中分布规律的研究相对缺乏。而且,采样及分析化验方法选择不当会导致测试结果与真实情况存在较大偏差,影响客观准确地评价找矿潜力。本文对宁夏树龙沟金矿床开展人工重砂研究,以期确定金的赋存状态、研究自然金的分布规律,以此指导区内相关勘查工作的具体部署。树龙沟金矿床为蚀变岩型金矿,受区内NE向断裂构造控制,从蚀变中心向两侧分别发育石英黄铁矿化带-伊利石黄铁矿化带-伊利石绿泥石化带,蚀变带宽度累计约10~20 m。采集的101件人工重砂样品中含自然金样品共计74件,其中粗粒金(0.07 mm)样品总量达62.4%。通过区内各类蚀变(矿化)相关的矿物与金含量关系的系统对比后发现:(1)自然金含量与褐铁矿呈正相关关系,与石英呈负相关关系,与黄铁矿的关系复杂;(2)伊利石黄铁矿化带中的自然金含量高于石英黄铁矿化带和伊利石绿泥石化带;(3)矿区基性岩脉与金无成因联系,基性脉岩及其后期破碎为金矿化提供了构造通道。本文认为在该区找矿工作中应该将伊利石黄铁矿化及石英黄铁矿化作为重要的找矿标志。本矿床自然金属于粗粒-巨粒,矿石中金含量的测定应选用针对明金的过筛火试金等分析方法。 相似文献
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《Russian Geology and Geophysics》2015,56(10):1384-1393
We studied the mineralogic and geochemical features of metasomatic rocks and ores from the Pogromnoe gold deposit, which is unconventional for Transbaikalia. The deposit, which formed in the Early Cretaceous, at the rifting stage of the regional evolution, is localized in the dynamoclastic strata of the Mongol-Okhotsk suture, along which the Siberian continent joined the Mongolia-China continent in the Early-Middle Jurassic. Gold mineralization occurs as two morphologic types of ores: stockwork quartz-carbonate-arsenopyrite-pyrite ores in altered volcanics (orebody no. 1) and veinlet-vein quartz ones (with disseminated sulfides) in altered carbonaceous shales (orebody no. 10). The host rocks of the deposit are the highly altered volcanosedimentary rocks of the Butorovskii Formation (Shadoron Group, J2–3), which transformed into metasomatic (by composition) and dynamoclastic (by texture and structure) rocks. It has been found that the formation of the metasomatic rocks and mineralization proceeded in several stages. Propylites formed at the preore stage (J3); tectonic schists and albitophyres, at the late preore stage; and sericitolites and albite-carbonate-sericite-quartz metasomatic rocks (quartzites), at the synore stage. The 40Ar/39Ar age of the stockwork system of ore-bearing fractures and metasomatic rocks which formed at the late preore stage is estimated as 139.5 ± 1.8 Ma. The gold-bearing rocks at the deposit are the late preore and synore metasomatic rocks formed after volcanics with sulfide mineralization (gold concentrators are pyrite II and III and arsenopyrite I and II) and after altered carbonaceous shales (gold concentrators are vein quartz and arsenopyrite II). Gold grade is completely consistent with silicification, saturation with quartz-sulfide and sulfide microveinlets, and fine sulfide dissemination. By genesis, the Pogromnoe deposit belongs to objects which formed in shear zones with the contribution of gold-bearing mantle fluids. The authors presume that the sources of mineralization are the ore-producing granitoids of the Amudzhikan-Sretensk intrusive assemblage within the Aprelkovo ore-magmatic system (OMS) (Os’kina and Urguchan plutons). This is confirmed by Pb isotope compositions (207Pb/204Pb and 206Pb/204Pb) for the pyrite and arsenopyrite of the Pogromnoe gold-bearing ores, which testify to the widespread occurrence of “mantle” Pb isotope signatures. The 40Ar/39Ar age of the ore-producing granitoids of the Aprelkovo OMS is 131.0 ± 1.2 Ma. Gold in the orebodies occurs in native form and is fine and very fine. By gold grade, the Pogromnoe deposit deserves very close attention as a new commercial type of gold mineralization in Transbaikalia. 相似文献
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大营子蚀变岩型金矿床地质特征及控矿因素的研究 总被引:3,自引:0,他引:3
大营子蚀变岩型金矿主档是冀北地区新发现的一种金矿类型。矿体赋存于太古代角闪角变质岩系,特别是变质闪长岩体周边及内侧,受NE、NNE向剪切破碎带控制,常在其傍侧断裂形成羽状矿脉。 相似文献
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亦论韧性剪切变形与金的成矿作用——与邵世才《试论韧性剪切变形与金的成矿》一文的讨论 总被引:2,自引:0,他引:2
剪切带型金矿是一种重要的金矿类型.韧性-超韧性深层次剪切变形是促使Au元素活化分异、形成动力变质含金热液的过程,中浅层次的韧脆性、脆性剪切变形区是Au元素聚集成矿部位.韧脆性剪切带的不同变形层次及其构造岩类型决定了剪切带型金矿床的矿化类型.剪切带型金矿床往往具有成矿时代滞后、空间规模差异、物源指示差异、韧性变形强度与Au元素含量反相关等异常特征.长期演化的造山带附近及边缘是寻找大型剪切带型金矿床的有利地区. 相似文献
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萨热阔布金矿是阿尔泰山南缘金一多金属矿带中与断裂变质作用有关的石英脉一蚀变岩型金矿床。本文通过电子探针的研究,在该矿区发现较多的自然铋矿物,它与金矿化关系非常密切,产出于多金属硫化物阶段,与方铅矿、黄铜矿等共生。矿区蚀变岩和矿石的微量元素R型聚类分析表明,Bi与Au相关最密切,Au、Cu、Ag、Bi是主要的成矿元素组合。Bi异常可以作为金矿化的重要指示,自然铋矿物的出现可以作为含金石英脉富矿地段的重要标志。 相似文献
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DONG Yongguan ZHANG ChuanlinNanjing Institute of Geology Mineral Resources East Zhongshan Rd. Nanjing Jiangsu 《《地质学报》英文版》2000,74(3):582-586
The Aktubaik gold deposit lies in the Altay middle-high mountains area, Xinjiang, hosted by the Pa-laeo- and Mesoproterozoic Xemirxek Group. It is the first gold deposit found in Precambrian rocks in Altay. The deposit is controlled by the NW-trending fracture-alteration zone, in which rocks have been strongly altered and bleached. The main wall-rock alterations include silicification, sericitization (muscovitization), carbonation, pyritiza-tion and tourmalinization. Several gold mineralization zones of this type have been found in the study area. The dominant gold mineral is native gold, which is distributed very unevenly, so special methods such as peeling and bulk sampling are required in exploration. The discovery of this gold deposit has laid a foundation for gold exploration in Precambrian rocks in the Altay middle-high mountains area, Xinjiang. 相似文献