广东梅县玉水铜多金属矿田矿床矿物学特征

着重研究梅县玉水铜多金属矿体中矿石的产出特征,黄铜矿、斑铜矿、辉铜矿、锌黔铜矿、锌砷黔铜矿、硫铜银矿、新发现的矿物硫铜铜矿等矿石矿物的矿物学特征和银的赋存状态。     

铁炉坪银铅矿床银赋存状态及其选矿工艺探讨

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     

呷村银多金属块状硫化物矿床银的赋存状态

通过大量岩石、矿石光（薄）片观察鉴定、电子探针分析、首次查明呷村海相火山岩型银多金属状块硫化物矿床有硫砷铜银矿和硫砷铜矿两种硫盐矿物。研究表明，除硫化物外（主要为方铅矿、闪锌矿、黄铁矿，其次为黄铜矿，毒砂，斑铜矿，铜铜银矿，螺硫银矿，磁黄铁矿等），硫盐矿物十分发育，主要有黝铜矿、车轮矿、硫砷铜矿、硫砷铜银矿等。该矿床中的银主要在喷流-沉积成矿阶段富集。     

福建紫金山矿田金、银赋存状态及黄铁矿标型研究

福建紫金山铜金矿床、悦洋银多金属矿床和罗卜岭斑岩型矿床同属于与陆相火山岩相关的斑岩-浅成低温热液成矿系统。通过显微镜观察、电子探针成分分析、场发射扫描电子显微镜观测和矿石元素含量分析等综合研究方法,认为紫金山铜金矿床金的赋存状态除金矿石中自然金矿物外,金还赋存于铜矿石中硫砷铜矿、蓝辉铜矿、久辉铜矿和黄铁矿中,硫砷铜矿含金性最好,金含量最高达370 μg/g;悦洋银多金属矿床银的赋存状态包括独立银矿物、亚显微银矿物和类质同象银,银的载体矿物有方铅矿、黄铁矿、黄铜矿等;黄铁矿是紫金山铜金矿床和悦洋银多金属矿床中共同存在的矿物,黄铁矿成分标型特征表明两处矿床的形成均与热液有关,与前人的研究结果一致。     

吉林山门银金矿床地质特征

山门银金矿床为浅成低温热液型矿床,贫硫化物型矿石.银矿物有自然银、辉银矿、锌银黝铜矿、深红银矿、硫砷铜银矿、硫锑铜银矿、马硫铜银矿、硫铜银矿.矿化分6个阶段.成矿温度为110~160℃.成矿时代燕山晚期.     

梅县玉水铜铅锌矿床中的银

玉水铜铅锌矿床中，银呈共生，伴生状态产在富铅铅锌矿石中。银与铜呈正相关，与铅锌不相关。银主要以独立银矿物在斑铜矿，辉铜矿内，尚有一部分呈粒径小于０．１μｍ的超显微包体，机械混入物和类质同像在硫化物中。银矿物类比较简单，主要是硫铜银矿，辉银矿，粒度细小。     

滇中清水河砂岩铜矿中银的赋存状态

砂岩铜矿是铜矿床的一种重要类型,牟定清水河铜矿就是该类型的一个高品位矿床。该矿床主要含有辉铜矿、孔雀石以及少量斑铜矿、黄铜矿等。银主要呈矿物状态产于辉铜矿中(达1296.96克/吨)。本文主要是研究银的赋存状态,用电子探针测定了样品,研究结果指出:银和铜的关系很密切,银通常以细粒矿物产于辉铜矿中。分析结果发现的银矿物有角银矿、辉银矿、自然银、硫铁银矿、银金矿等。这些银矿物通常在铜硫化物的胶结带,由表生作用形成。     

某热液沉积矿石中伴生银的赋存状态研究

某热液沉积型铜铅锌多金属矿石伴生丰富的银。工艺矿物学研究表明，该矿石银的赋存状态有着其独特之处，银赋存与铜矿物密切相关，银主要以较罕见的硫铜银矿矿物形式产出，嵌布于斑铜矿微裂缝中。     

鹿厂砂砾岩铜矿中的银和硒

自一九七一年通过化验发现砂砾岩铜矿伴生有硒后,李智等同志对毗邻矿区银硒的赋存状态进行了详细的考查,确定了硫铜银矿,硒铜银矿等十一种银、硒独立矿物。一九七七年～一九八○年,我队完成鹿厂砂砾岩铜矿的详勘,勘探结果表明,矿床中银硒含量较高,伴生银硒的储量相当于大型矿床规模,经试验选矿效果很好,有关部门曾指出鹿厂砂砾岩铜矿中银、硒的工业价值已经超过了铜的价值。一九七九年已将有关情况作过介绍[2],本文仅对其中某些方面进行补充和修正。     

内蒙古大井矿床中银矿物的研究

本文总结了内蒙古大井矿床中银矿物的类型，产出特征以及矿物命名的问题，详细描述了黝铜矿族，浓红银矿，脆银矿，自然银以及含银的铅－铋（锑）硫盐类矿物等主要银矿物的产出状态和化学成分特征，并讨论了相应的形成条件，同时指出本区银矿物主要形成于两个矿化阶段，即：早期黄铜矿－黄铁矿阶段，主要形成了黝铜矿族的含银矿物以及辉锑银矿，硫锑铜银矿等含铜的硫盐类矿物，晚期方铅矿－闪锌矿阶段，形成的银矿物种类较为繁杂，除形成黝铜矿族矿物外，多数含铅，铋的硫盐矿物以及自然银、硫化物和浓红银矿、脆银矿等无铜的简单硫盐等均是在这一阶段形成。     

Rare earth elements in apatite and magnetite in Kiruna-type iron ores and some other iron ore types

An investigation of the content and distribution of REE in apatite and magnetite in the iron ores of Kiruna type and some other iron ores is presented. REE in apatite and magnetite in different ore types show characteristic patterns which are related to different modes of formation of the ores.The magnetite-apatite iron ores of the world can be divided into two types: (a) Kiruna iron ores proper which occur in volcanic rocks, and (b) iron ores connected with deuteric processes and/or related to intrusive rocks. Apatite of the Kiruna ores proper in Fennoscandia (e.g. Kiirunavaara, Malmberget and Grängesberg) shows a common pattern with 2000–7000 ppm REE, a weak to moderate LREE/HREE fractionation and negative Eu anomalies. In the Kiruna area, apatite of the main, P-poor ores and of the later, hydrothermal-exhalative P-rich ores, have the same REE distribution which indicates a common source. There is a similar REE distribution in magnetite-apatite trachytic-rhyodacitic host rock which confirms a close magmatic relationship. Apatite in phosphorites (such as the Paleoproterozoic Påläng deposit in northern Sweden) has a different composition (< 1000 ppm REE with Ce depletion) which excludes a sedimentary origin of the Kiruna apatite.Apatite in other volcanogenic magnetite-apatite ores outside Fennoscandia differ by a stronger LREE/HREE fractionation and by a medium to large Eu depletion, partly indicating a relationship to alkaline intrusions. The Avnik apatite, Turkey, shows a weak differentiation in combination with a pronounced negative Eu anomaly, indicating provenance from silicic magmatic sources.The REE pattern of apatite in the deuteric-hydrothermal apatite-bearing iron ores is in general similar to that of apatite in the Kiruna iron ores proper. The similarity indicates a common process of formation for both ore types.The apatite-iron ores of the Kiruna type proper were formed by a late-magmatic differentiation. The ores of the Kiruna area are, in similarity with some other magnetite-apatite ores, emplaced along regional fracture-fault lines and close to an older basement. In general the REE pattern of apatite in the different deposits shows an affinity to alkaline or sub-alkaline magmas, indicating a rifting environment. The alkaline, trachytic volcanics hosting the Kiruna ores in northern Sweden are clearly related to an extensional setting where rifting was important. A probable source for this large-scale ore-forming process was partial melting of deep-seated rocks. The ores evolved in an intracontinental setting with magma generation caused by underplating of older crust.The process giving rise to magnetite-apatite ores of the Kiruna type has occurred during the time span from Paleoproterozoic to Tertiary. The Proterozoic ores occur mainly in cratonized areas, whereas the younger ones occur in fold belts. The amount of ore formed in post-Proterozoic time is as large as that formed in Proterozoic time.     

Manganese and ferromanganese ores from different tectonic settings in the NW Himalayas,Pakistan

In Pakistan manganese and ferromanganese ores have been reported from the Hazara area of North West Frontier Province, Waziristan agencies in the Federally Administered Tribal Areas and the Lasbela-Khuzdar regions of Baluchistan. This study is focused on comparison of mineralogy and geochemistry of the continental ferromanganese ores of Hazara and the ophiolitic manganese ores of the Waziristan area of Pakistan. In the Hazara area, ferromanganese ores occur at Kakul, Galdanian and Chura Gali, near Abbottabad, within the Hazira Formation of the Kalachitta-Margala thrust belt of the NW Himalayas of the Indo-Pakistan Plate. The Cambrian Hazira Formation is composed of reddish-brown ferruginous siltstone, with variable amounts of clay, shale, ferromanganese ores, phosphorite and barite. In Waziristan, manganese ores occur at Shuidar, Mohammad Khel and Saidgi, within the Waziristan ophiolite complex, on the western margin of the Indo-Pakistan Plate in NW Pakistan. These banded and massive ores are hosted by metachert and overlie metavolcanics.The ferromanganese ores of the Hazara area contain variable amount of bixbyite, partridgeite, hollandite, pyrolusite and braunite. Bixbyite and partridgeite are the dominant Mn-bearing phases. Hematite dominates in Fe-rich ores. Gangue minerals are iron-rich clay, alumino-phosphate minerals, apatite, barite and glauconite are present in variable amounts, in both Fe-rich and Mn-rich varieties. The texture of the ore phases indicates greenschist facies metamorphism. The Waziristan ores are composed of braunite, with minor pyrolusite and hollandite. Hematite occurs as an additional minor phase in the Fe-rich ores of the Shuidar area. The only silicate phase in these ores is cryptocrystalline quartz.The chemical composition of the ferromanganese ores in Hazara suggests that the Mn–Fe was contributed by both hydrogenous and hydrothermal sources, while the manganese ores of Waziristan originated only from a hydrothermal source. It is suggested that the Fe–Mn ores of the Hazara area originated from a mixed hydrothermal–hydrogenetic source in shallow water in a ontinental shelf environment due to the transgression and regression of the sea, while the Mn ores of Waziristan were formed at sea-floor spreading centers within the Neo-Tethys Ocean, and were later obducted as part of the Waziristan ophiolite complex.     

金川镍铜铂硫化物矿床矿石成因——来自铂族元素地球化学的证据

对金川镍铜铂硫化物矿床Ⅰ、Ⅱ矿区主矿体典型钻孔中的不同类型矿石进行了系统观察和铂族元素分布特征研究。金川矿床中星点状矿石、网状矿石、块状矿石PGE 总量依次降低,由西至东24 号、1 号、2 号矿体的PGE 总量亦具渐次降低趋势。形成块状矿石的硫化物熔体PGE 分异作用较星点状和网状矿石更充分; 块状矿石铂族元素分布特征显示其受晚期硫化物熔体分离结晶和单硫化物固溶体( MSS) 分离作用控制。研究结果表明: 星点状矿石是岩浆分离结晶过程中较快速度冷凝和就地硫化物熔离的结果; 而网状矿石可能是硫化物熔体经深部熔离但未经充分的硫化物分离结晶作用贯入的产物; 块状矿石成因定量模拟结果排除了R 因子控制作用,不同矿体中块状矿石由不同程度的单硫化物固溶体( MSS) 分离结晶所形成。     

Ferride geochemistry of Swedish precambrian iron ores

Chemical analysis for major and trace elements have been performed on 30 Swedish Precambrian iron ores and on some from Iran and Chile. The Swedish ores consist of apatite iron ores, quartz-banded iron ores, skarn and limestone iron ores from the two main ore districts of Sweden, the Bergslagen and the Norrbotten province. Some Swedish titaniferous iron ores were also included in the investigation. The trace element data show that the Swedish ores can be subdivided into two major groups: 1. orthomagmatic and exhalative, 2. sedimentary. Within group 1 the titaniferous iron ores are distinguished by their high Ti-contents. From the ferride contents of the Kiruna apatite iron ores, the ores are considered to be mobilization products of skarn iron ores from the Norbotten province.     

张家湾矿石的工艺矿物学及可选性研究

通过对张家湾矿体进行矿石的工艺矿物学及可选性研究，查明了矿石的物质组成和嵌布特征，确定了矿石的可选性及开采价值，为鞍山矿业公司提供了新的开采资源。     

贵州省兴义市雄武地区金矿石堆浸的工艺研究

贵州省兴义市雄武地区金矿主要为卡林型,其次为红土型,矿床受断裂构造控制,矿石为中等含硫微细浸染状氧化矿石。目前浅部矿石已基本采完,深部矿石品位较低(0.8~1.8 g/t),因此有效提高低品位矿石浸出率和金回收率至关重要。研究表明,筑堆时矿石粒度和喷淋时氰化钠浓度是堆浸生产中的重要影响因素。矿石粒度大,金浸出率低;氰化钠浓度大,则成本增加。根据矿石物质成分和工艺特征研究,得到矿石冶炼时的最佳工艺条件:筑堆时矿石粒度为15~25 mm,氰化钠浓度为0.05%~0.08%。该研究有效提高了矿石浸出率,降低了运营成本,为金矿石堆浸实际生产提供了理论和实验依据。     

The Milluachaqui epithermal silver district of northern Peru

The mines in the Milluachaqui district, located near Salpo in the northern part of Peru, show a vertically zoned, epithermal silver-gold mineralization. Colonial production was obtained from oxidized, high-grade ores, consisting mostly of native silver and cerargyrite. More modern development exposed, from the top of ore shoots to their base, the "bonanza" ores (the pyrargyrite-polybasite-acanthite zone), silver-copper ores (the tetrahedrite zone), silver-lead ores (the galena-sphalerite zone), and the basal zone ores (the sphalerite zone). The ratio of gold to silver in the "bonanza" ores was about 1 to 100, by weight. Interpretation of mineralogical textures and the composition of minerals in the sulfide zone suggests that supergene movement and enrichment of silver at Milluachaqui was not a significant factor. Silver tended to be fixed in place during weathering as the chloride and native mineral. The "bonanza" ores are interpreted to be hypogene sulfide accumulations. These findings contrast to hypotheses proposed for some epithermal districts in the U.S. which assume supergene activity to have been significant in the accumulation of high grade, near-surface silver ores.     

闽浙沿海火山岩地区银矿成矿规律

本根据闽浙沿海火山岩地区银矿成矿规律和成矿预测的研究及近年来的矿产勘查，成矿预测和专科研成果，综合论述了闽浙沿海火山岩地区银矿的成矿地质条件，矿床类型和矿床特征，分析和总结了银矿的成矿规律和成矿作用，建立了区域成矿模式和成矿系列，同时指出，火山热液充填充代型银矿是本区最重要、也是最普遍的成因类型，并阐明了找矿方向。     

Mineral and geochemical compositions,regularities of distribution,and specific formation of ore mineralization of the Rogovik gold-silver deposit (northeastern Russia)

New data on the mineral composition and the first data on the geochemical composition of ores of the Rogovik gold-silver deposit (Omsukchan ore district, northeastern Russia) have been obtained. Study of the regularities of the spatial distribution of ore mineralization shows that the deposit ores formed in two stages. Epithermal Au-Ag ores of typical poor mineral and elemental compositions were generated at the early volcanic stage. The major minerals are low-fineness native gold, electrum, acanthite, silver sulfosalts, kustelite, and pyrite. The typomorphic elemental composition of ores is as follows: Au, Ag, Sb, As, Se, and Hg. The content of S is low, mostly < 1%. Silver ores of more complex mineral and elemental compositions were produced under the impact of granitoid intrusion at the late volcanoplutonic stage. The major minerals are high-Hg kustelite and native silver, silver sulfosalts and selenides, fahlore, pyrite, chalcopyrite, galena, and sphalerite. The typomorphic elemental composition of ores is as follows: Ag, As, Sb, Se, Hg, Pb, Zn, Cu, and B. The content of S is much higher than 1%. The ores also have elevated contents of Mo, Ge, F, and LREE (La, Ce, and Nd). At the volcanoplutonic stage, polychronous Au-Ag ores formed at the sites of the coexistence of silver and epithermal gold-silver mineralization. Their specific feature is a multicomponent composition and a strong variability in chemical composition (both qualitative and quantitative). Along with the above minerals, the ores contain high-Hg gold, hessite, argyrodite, canfieldite, orthite, fluorapatite, and arsenopyrite. At the sites with strongly rejuvenated rocks, the ores are strongly enriched in Au, Ag, Hg, Cu, Pb, Zn, Ge, Se, La, Ce, Nd, S, and F and also contain Te and Bi. The hypothesis is put forward that the late silver ores belong to the Ag-complex-metal association widespread in the Omsukchan ore district. A close relationship between the ores of different types and their zonal spatial distribution have been established. In the central part of the Rogovik deposit, epithermal Au-Ag ores are widespread in the upper horizons, Ag ores are localized in the middle horizons, and rejuvenated polyassociation Au-Ag ores occur at the sites (mostly deep-seated) with ore-bearing structures of different ages.     

安徽铜陵某铁帽型金-铁矿床金的赋存状态研究

对某铁帽型金-铁矿床金的赋存状态进行了研究,分析了矿石的化学组成和矿物组成,通过溶解度和物相分析,区分矿物金和分散金,测定了金矿物的成分、粒度和嵌布关系,进行了金的平衡配分,指出了金的回收方向。