共查询到19条相似文献,搜索用时 125 毫秒
1.
黑西哥FresnilloAg-Pb-Zn地区的SantoNino脉中,银含在螺状硫银矿及三个含银矿盐固溶体系列的矿物中,这些硫盐矿物是:浓红银矿、淡红银矿、硫锑铜银矿、硒硫铜银矿、黝铜矿及脆银矿。 相似文献
2.
碧田矿床是成因上与燕山晚期次火山岩有关的以银为主的大型铜金银矿床。金属矿物种类复杂,除常见的黄铁矿、黄铜矿、斑铜矿外,还有多种铜铋硫盐矿物(锌砷黝铜矿、铋砷黝铜矿、铋锑黝铜矿、针硫铋铅矿、硫铋铜矿)、钨锡硫化物(硫铁锡铜矿、硫钨锡铜矿)及多金属硫化物。金银矿物除辉银矿外,主要是Au-Ag系列的自然金、银金矿、金银矿及自然银。这些矿物形成于不同的物理化学条件下,大多数铜矿物、铜铋硫盐矿物和钨锡硫化物是在中高温(260—380℃)条件下、硫逸度较高(lgfS2=-8.74—-12.06)、流体盐度高并处于沸腾的状况下形成的;而多金属硫化物和金银矿物则主要是在中低温(120—260℃)条件下,硫逸度较低(lgfS2=-11.6—-19.5),流体盐度也较低的状况下形成的。 相似文献
3.
采用人工重砂,光薄片,X粉晶衍射,扫描电镜电子探针等综合方法,查明铁炉坪银铅矿床中的独立银矿物有银黝铜矿,自然银,辉银矿,硫铜银矿,硫锑银矿,硫锑铜银矿和溴氯角银矿等7种。在原生矿石中,银黝铜矿为主要银矿物,并以包裹体形式分布在方铅矿之中,在氧化矿石中,辉银矿,自然银,溴氯角银矿等均占一定比例,矿石的银主要赋存在独立银矿物之中。银矿物粒度细小,形态复杂,选矿时宜采用浮选或浮选一重选联合流程,对氧化 相似文献
4.
凤凰山Ag-Pb-Zn多金属矿床产在寒武系类复理石建造中,赋矿围岩为砂岩和页岩,矿体受北西西向的构造破碎带控制。含矿热液流体沿构造破碎带充填,形成规模较大的多金属矿床,矿床的形成具有多期多阶段的特征。银主要以银的独立矿物形式存在,和方铝矿、硫锰矿、闪锌矿、菱锰矿及黄铁矿的关系较为密切。主要的银矿物有辉锑铅银矿、深红银矿、杂辉锑银铅矿、捷辉锑银铅矿、柱硫锑铅银矿、脆银矿、辉锑银矿和银黝铜矿等。银矿物主要形成于石英-硫化物阶段和石英-碳酸盐、硫盐阶段。 相似文献
5.
福建碧田铜金银矿床中硫盐矿物及钨锡硫化物研究 总被引:6,自引:0,他引:6
福建碧田矿床成因上是与燕山晚期次火山岩有关的、以银为主的大型铜金银矿床。该矿床产于燕山早期花岗岩中,在其铜矿石内发现了较多的锌砷黝铜矿、铋砷黝铜矿、铋锑黝铜矿、碲砷黝铜矿、针硫铋铅矿、硫铋铜矿、硫砷铜矿等硫盐矿物及少见的钨锡硫化物——硫锡铁铜矿、硫铁锡铜矿和硫钨锡铜矿。这些矿物形成于成矿作用早期的黄铜矿-斑铜矿-黄铁矿阶段。成矿温度在260~380℃之间,最低成矿压力20~40 MPa,硫逸度(lgfs_2)=-8.74~-12.06。钨锡铋矿物的发现表明,燕山早期花岗岩可能为成矿提供了部分物质来源。 相似文献
6.
7.
福建碧田矿床成因上是与燕山晚期次火山岩有关的,以银为主的大型铜金银矿床。该矿床产于燕山早期花岗岩中,在其铜矿石内发现了较多的锌砷黔铜矿、铋砷黝铜矿、铋锑黝铜矿、碲砷黝铜矿,针硫铋铅矿、硫铋铜矿、硫砷铜矿等硫盐矿物及少见的钨锡矿化物-硫锡铁铜矿,硫铁锡铜矿和硫钨锡铜矿。 相似文献
8.
本矿床银的第一个成矿阶段产物实质上是锌、铜、铅硫化物阶段的晚期相。从方铅矿中以固溶体分解形式先析出针硫铋银矿、硫银铋矿等,最后,沿方铅矿解理、晶粒间隙和闪锌矿边界处析出较多的含银黝铜矿。第二个阶段银沿构造微裂隙充填交代方铅矿-闪锌矿-黄铁矿矿体,相继生成深红银矿和硫锑铜银矿,前者常选择交代含银黝铜矿,后者常选择交代深红银矿和闪锌矿内的黄铜矿不混溶包体。第一阶段银矿物组合成顺向沉淀垂直分带,下部以银铋硫盐为主,向上银锑铜硫盐相对富集。由于第二阶段叠加的银锑硫盐交代作用由矿体中部往上逐步加强,因而形成交代重叠垂直分带。据此讨论了深部银矿化演变的趋势和远景。 相似文献
9.
夏塞银多金属矿床中硫化物和硫盐系列矿物特征及其意义 总被引:4,自引:1,他引:3
夏塞矿主档是大型的热液脉型银多金属矿床,通过对大量矿石光(薄)片观察和电子探针分析表明,除主要(方铅矿、富铁闪锌矿)和次要(黄铁矿、毒砂、磁黄铁矿、黄铜矿等)硫化物外,硫盐毓硫物十分发育,主要有Cu-Sb-Ag硫盐(黝铜矿、含银黝铜矿和银黝铜矿)、Sb-Ag硫盐(深红银矿、辉锑银矿)、Pb-Sb硫盐(脆硫锑铅矿、硫锑铅矿)和Bi-Pb硫盐(斜方辉饿铅矿)。此外,尚有少(微)量黄锡矿、锡石、自然饿和银金矿等。银的硫盐硫物和硫化物(辉银矿)乃是获得银的主要工业矿物,这些硫盐毓矿物常与硫化物伴生,多沿方铅矿、富铁闪锌矿、黄铁矿等的解理、裂隙或粒间产出,这些研究结果不仅有助于了解矿化作用过程,而且为矿床评价,组分综合利用和选冶提供重要依据。 相似文献
10.
东珺矿床是近年在内蒙古额尔古纳地区陆相火山岩系内新发现的一处脉状Pb-Zn-Ag矿床,其以富含多量Ag及微量Au为特征。在野外考察的基础上,本文以电子探针、能谱-扫描电镜及多项光谱分析等方法查明了其矿石中Au、Ag的赋存状态及矿物组成,其主要矿物包括辉银矿、火硫锑银矿、黝锑银矿、深红银矿、硫锑铜银矿及脆银矿。除此,还发现了一些罕见的矿物,如碲铋矿、硫锑铜矿的锌变种、针硫铋铅矿、库辉铋铜铅矿以及某些未知的Pb-Bi相金属矿物。为了估算本矿床的成矿温度,着重对矿床中的银锑黝铜矿系列的组成做了分析,并将其Ag/(Ag+Cu)及Zn/(Zn+Fe)数值投至Sack等温曲线图上,由其结果可判断出本矿床应属于浅成低温成因,而深部矿体中碲铋矿及无Ag硫盐的出现亦可视为一重要旁证。东珺矿床丰富的银矿物及其粗大粒度对于矿山工艺流程选定以及开发利用将会大有裨益,而本矿床Au含量过低,仅具有地球化学的理论意义。 相似文献
11.
The occurrence and the chemical compositions of ore minerals (especially the silver‐bearing minerals) and fluid inclusions of the El Zancudo mine in Colombia were investigated in order to analyze the genetic processes of the ore minerals and to examine the genesis of the deposit. The El Zancudo mine is a silver–gold deposit located in the western flank of the Central Cordillera in Antioquia Department. It consists mainly of banded ore veins hosted in greenschist and lesser disseminated ore in porphyritic rocks. The ore deposit is associated with extensive hydrothermally altered zones. The ores from the banded veins contain sphalerite, pyrite, arsenopyrite, galena, Ag‐bearing sulfosalts, Pb‐Sb sulfosalts, and minor chalcopyrite, electrum, and native silver. Electrum is included within sphalerite, pyrite, and arsenopyrite, and is also partially surrounded by pyrite, arsenopyrite, sphalerite, and tetrahedrite. Native silver is present in minor amounts as small grains in contact with Ag‐rich sulfosalts. Silver‐bearing sulfosalts are argentian tetrahedrite–freibergite solid solution, andorite, miargyrite, diaphorite, and owyheeite. Pb‐Sb sulfosalts are bournonite, jamesonite, and boulangerite. Two main crystallization stages are recognized, based on textural relations and mineral assemblages. The first‐stage assemblage includes sphalerite, pyrite, arsenopyrite, galena and electrum. The second stage is divided into two sub‐stages. The first sub‐stage commenced with the deposition and growth of sphalerite, pyrite, and arsenopyrite. These minerals are characterized by compositional growth banding, and seem to have crystallized continuously until the end of the second sub‐stage. Tetrahedrite, Pb‐Cu sulfosalts, Ag‐Sb sulfosalt, and Pb‐Ag‐Sb sulfosalts crystallized from the final part of the first sub‐stage and during the whole second sub‐stage. However, one Pb‐Ag‐Sb sulfosalt, diaphorite, was formed by a retrograde reaction between galena and miargyrite. The minimum and maximum genetic temperatures estimated from the FeS content of sphalerite coexisting with pyrite and the silver content of electrum are 300°C and 420°C, respectively. These estimated genetic temperatures are similar to, but slightly higher than the homogenization temperatures (235–350°C) of primary fluid inclusions in quartz. The presence of muscovite in the altered host rocks and gangue suggest that the pH of the hydrothermal solutions was close to neutral. Most of the sulfosalts in this deposit have previously been attributed as the products of epithermal mineralization. However, El Zancudo can be classified as a xenothermal deposit, in view of the low pressure and high temperature genetic conditions identified in the present study, based on the mineralogy of sulfosalts and the homogenization temperatures of the fluid inclusions. 相似文献
12.
Silver occurs in South China wolframited-quartz veins in three forms:(1)as micro inclusions of Ag2S and AgBiS2,(2) as argentite and matildite as a result of exsolution and(3)as Ag-bearing sulfosalts and independent silver minerals.According to mineral assemblaged the Ag-bearing tungsten deposits are classified as two types:(1)Ag-bearing W-Bi deposits in eastern Nanling,where gustavite has been found and(2)Ag-bearing W-Sn(Sb)deposits which are mainly distributed in western Nanling.The authors consider that the enrichment of silver and sulfosalt minerals in the lower parts of pneumato-hypothermal tungsten deposits is the result of reversed vertical zoning caused by high concentrations of F and S in the ore-forming fluids. 相似文献
13.
江西冷水坑矿田下鲍Ag-Pb-Zn矿床地质特征及银的赋存状态研究 总被引:5,自引:2,他引:3
下鲍大型Ag-Pb-Zn矿床位于江西冷水坑矿田西南部。矿床地质研究表明,成矿作用可以分三个阶段:(Ⅰ)闪锌矿-黄铁矿阶段;(Ⅱ)方铅矿-闪锌矿-银矿物阶段;(Ⅲ)黄铁矿-石英(方解石)阶段。岩矿石光薄片鉴定和电子探针分析表明,下鲍矿床主要金属硫化物为闪锌矿、方铅矿、黄铁矿及银矿物。电子探针分析显示,银主要以独立银矿物形式存在,金属硫化物中不可见银极少。银矿物种类主要为螺状硫银矿和自然银,呈裂隙银赋存于铁锰碳酸盐中或呈粒间银分布于铁锰碳酸盐粒间和早期硫化物晶隙间;另有少量硫银锡矿、含银黝铜矿、淡红银矿、金银矿及深红银矿、硫砷铜银矿等银矿物,呈亚显微粒状赋存于铁锰碳酸盐粒间或呈固溶体分离结构赋存于方铅矿、闪锌矿等硫化物中。主要银矿物大量赋存于铁锰碳酸盐中,表明银矿化与铁锰碳酸盐可能存在成因联系。 相似文献
14.
桂东北铅锌矿床银的富集规律 总被引:1,自引:0,他引:1
作者对桂东北地区铅锌矿床中银的产出特征和富集规律进行了阐述。银主要以首次发现的含银硫盐矿物(深红银矿、银黝铜矿和含银锌黝铜矿等)产出,其次呈杂质元素分散在金属硫化物中,银的含量按方铅矿、黄铜矿、闪锌矿、黄铁矿的顺序依次降低,矿体从上向下具Cu、Pb(Ag),Zn→Pb,Zn→Zn的垂向变化规律,银主要富集于上部,并与方铅矿、黄铜矿紧密伴生。 相似文献
15.
16.
银多金属矿床中黝铜矿族银硫盐矿物的特征及其意义 总被引:10,自引:0,他引:10
在国内外几个不同成因类型的银多金属矿床内产出的黝铜矿族银硫盐矿物中,除朗达矿床见有砷黝铜矿和含银砷黝铜矿外,较普遍共同发育有黝铜矿、含银黝铜矿和银黝铜矿、而后两者是最主要或主要的工业银矿物之一。按国际矿物学协会新矿物及矿物命名委员会的矿物命名原则,黝铜矿族矿物所含的Fe、Zn、Hg、Cd、Mn等不可作为矿物种的命名元素。蔡家营矿床的含银黝铜矿和银黝铜矿以Fe、Zn含量近似而有别于其余矿床的富Fe贫 相似文献
17.
斯弄多银铅锌矿床是冈底斯成矿带林子宗群火山岩中发现的首例低硫化型浅成低温热液型中-大型多金属矿床。矿区矿物组合多样,矿石组构复杂,具有热液成矿作用的典型特征,成矿阶段可划分为(I)闪锌矿-黄铜矿-硫砷铜矿-黄铁矿-石英阶段、(Ⅱ)方铅矿-闪锌矿-银矿物阶段、(Ⅲ)黄铁矿-石英-方解石三个成矿阶段。通过野外调查、地质编录、显微观察和电子探针(EPMA)微区分析,本文对该矿床中银的赋存状态进行了详细的研究。结果表明,银主要以独立银矿物形式存在,方铅矿、闪锌矿、黄铁矿、黄铜矿等金属矿物中不可见银极少。银矿物种类主要为硫砷铜银矿、辉银矿、深红银矿、螺状硫银矿和自然银,呈裂隙银或粒间银形式赋存于矿区碧玉、铁锰碳酸盐和早期金属硫化物中,次以包裹银形式赋存于早期硫化物中。另,在硫砷铜矿中发育极少的类质同象不可见银。银矿化主要形成于成矿阶段Ⅱ,银主要以硫的络合物形式运移,随着成矿流体物理化学条件的变化而发生沉淀,形成银矿物。 相似文献
18.
Residence of silver in mineral deposits of the Thunder Mountain caldera complex,Central Idaho,U.S.A.
Summary Silver is an accessory element in gold, antimony, and tungsten deposits of the caldera complex. Most of the deposits are economically of low grade and genetically of xenothermal or epithermal character. Their gold- and silver-bearing minerals are usually disseminated, fine grained, and difficult to study. Sparsely disseminated pyrite and arsenoprite are common associates.Identified silver minerals are: native silver and electrum; the sulfides acanthite, argentite (the latter always inverted to acanthite), and members of the Silberkies group; the sulfosalts matildite, miargyrite, pyrargyrite, argentian tetrahedrite, and unnamed Ag-Sb-S and Ag-Fe-Sb-S minerals; the telluride hessite and the selenide naumannite; halides of the cerargyrite group; and the antimonate stetefeldtite. Suspected silver minerals include the sulfide uytenbogaardtite and the sulfosalts andorite, diaphorite, and polybasite. Electrum, acanthite, and argentian tetrahedrite are common, though nowhere abundant. The other silver minerals are rare.Silver is present as a minor element in the structure of some varieties of other minerals. These include arsenopyrite, chalcopyrite, chalcostibite, covelline, digenite, galena, sphalerite, and stibnite. The search for adventitious Ag in most of these minerals has been cursory. The results merely indicate that elemental silver is not confined to discrete silver minerals and is, therefore, an additional complication for the recovery of silver-bearing material from some deposits.Silver occurs cryptically in some plants of the region. At Red Mountain, for example, the ashed sapwood of Douglas-fir (Pseudotsuga menziesii) contains 2 to 300 ppm Ag. Silver in the ashed wood is roughly 100 times as abundant as it is in soil. The phenomenon, useful in biogeochemical exploration, deserves the attention of mineralogists.
With 10 Figures
Contribution to the Ore Mineralogy Symposium (IMA/COM) at the 14th General Meeting of the International Mineralogical Association, at Stanford, California, in July, 1986. 相似文献
Das Vorkommen von Silber in den Erzlagerstätten des Thunder-Mountain-Caldera-Komplexes, Idaho, U.S.A.
Zusammenfassung Silber ist in den Gold-, Antimon- und Wolframlagerstätten des Caldera-Komplexes ein akzessorisches Element. Die Lagerstätten sind wirtschaftlich geringhaltig und genetisch als xeno- oder epithermal zu deuten. Gold- und silberführende Minerale sind meist feinkörnig und treten akzessorisch auf. Im einzelnen wurden folgende Minerale beobachtet: Gediegen Silber und Elektrum; die Sulfide Akanthit und Argentit (immer zu Akanthit umgewandelt) sowie Silberkiese; die Sulfosalze Matildit, Miargyrit, Pyrargyrit, silberhaltiger Tetraedrit und nicht näher identifizierte Ag-Sb-S- und Ag-FeSb-S-Verbindungen; das Tellurid Hessit und das Selenid Naumannit; Halogenide der Kerargyritgruppe; und das Antimonat Stetefeldit. Mögliche weitere Ag-Minerale schließen das Sulfid Uytenbogaardtit und die Sulfosalze Andorit, Diaphorit und Polybasit ein. Von diesen Mineralen kommen Elektrum, Akanthit und silberhaltiger Tetraedrit am häufigsten vor, während alle anderen selten sind. Die gewöhnlichen Nebengemengteile sind Pyrit und Arsenkies.Darüber hinaus wird vermutet, daß Spuren von Silber im Kristallgitter anderer Minerale eingebaut vorliegen; insbesondere in den Gittern von Arsenkies, Kupferkies, Chalcostibit, Covellin, Digenit, Bleiglanz, Zinkblende und Antimonit. Hierzu liegen noch keine umfassenden Untersuchungen vor, jedoch kann vermutet werden, daß Silber nicht ausschließlich auf Ag-Minerale sensu stricto beschränkt ist.Einige Pflanzen des Lagerstättenbezirkes enthalten beachtliche Mengen an Silber, so zum Beispiel die Asche der Douglas-FichtePseudotsuga menziesii. Der Silbergehalt beträgt 2 bis 300 g/t und ist damit gegenüber dem Boden etwa 100fach erhöht. Dieses Phänomen ist von Nutzen in der biogeochemischen Exploration und verdient das Interesse der Mineralogen.
With 10 Figures
Contribution to the Ore Mineralogy Symposium (IMA/COM) at the 14th General Meeting of the International Mineralogical Association, at Stanford, California, in July, 1986. 相似文献
19.
四川石棉金矿床中的黝铜矿族矿物 总被引:3,自引:0,他引:3
四川石棉西部碳酸盐岩系中的金矿床产于泥盆系中统,受层间蚀变破碎带控制。其中分布有为数较多的黟同矿族矿物,与黄铁矿、黄铜矿、方铅矿、闪锌矿和Au-Ag系列矿物共同组成矿石的矿物组合和Au-Cu-Ag-Pb-As-Sb-Bi的元素组合。电子探针分析表明黝铜矿族矿物有同铜矿、黝铜矿、砷黝铜矿和锌砷黝铜帮等,其中,Fe-Zn、AsSb之间分别呈完全类质同象。在垂向上,黝铜矿的成分自上而下由富锌锑向富铁砷演 相似文献