江西东乡铜矿中含铜硫化物的几种 微结构及其地质意义

根据对江西东乡铜矿矿石矿物的光学显微镜以及电子探针的研究,发现了该矿石中久辉铜矿与蓝辉铜矿呈页片状或互界状的交生构造,同时还存在着斑铜矿-蓝 辉铜矿的环带状构造。这两种构造中的蓝辉铜矿在成分上有明显差异,前一种构造中的蓝辉 铜矿不含Fe,而环带构造中的蓝辉铜矿含一定量的Fe。讨论了两种蓝辉铜矿各自的形成机制及其地 质意义。     

福建紫金山铜金矿床中的完整Cu-S体系矿物

在电子探针微区化学成分分析的基础上,结合 X 射线粉末衍射分析,对福建紫金山铜金矿床中的 Cu-S 体系矿物进行 了化学成分和晶体结构特征的研究。结果在该矿床中发现较完整的 Cu-S 体系矿物系列,包括铜蓝、雅硫铜矿、斯硫铜矿、 吉硫铜矿、斜方蓝辉铜矿、蓝辉铜矿、久辉铜矿和辉铜矿。此外,利用粉末 X 射线衍射数据,计算了铜蓝、斜方蓝辉铜矿、 蓝辉铜矿、久辉铜矿、辉铜矿等五种矿物的晶胞参数。基于系统矿物学的研究,建立了紫金山铜金矿床 Cu-S 体系完整矿物 的结晶与变化序列,该工作在国内尚属首次,同时也丰富了 Cu-S 体系矿物基础矿物学研究的资料。     

紫金山铜金矿床铜蓝垂向变化特征探讨

<正>1研究背景及意义福建省上杭县的紫金山铜金矿床是我国大陆发现的首例高硫化型浅成低温热液矿床,具有"上金下铜"的垂直矿化分带特征,铜矿体主要分布在+928~-400 m,铜金属量丰富,大于300万t。该矿床目前已发现Cu-S体系8种矿物[1],硫砷铜矿、块硫砷铜矿、斑铜矿、黄铜矿等21种铜矿物。铜矿物中蓝辉铜矿、铜蓝、块硫砷铜矿、硫砷铜矿占99%以上。前人对铜蓝-蓝辉铜矿的矿物成分和矿物组合分布特征有较深     

紫金矿铜蓝-蓝辉铜矿的矿物成分研究

<正>紫金山金铜矿属少见的高硫型浅层低温热液矿床,其铜矿的主要矿石矿物由铜蓝-蓝辉铜矿-硫砷铜矿组成。根据其形成深度和矿石结构构造类型,前人认为它们的成因属于中低温热液成矿(陈景河,1992;薛纪越等,2000)。Cu-S二元     

紫金山高硫型金铜矿的矿床地质研究进展

随着紫金山金铜矿露天采矿规模的不断扩大,许多与矿床成因密切相关的地质现象被剥露出来,露采场成为进行矿床地质研究的最佳场所。本文对紫金山金铜矿露采场的构造、矿化及蚀变分带特征进行了详细研究,研究表明:在自北向南靠近火山机构的过程中,蚀变带依次为绢云母+地开石化带、地开石+明矾石化带、地开石+褐铁矿化带和强硅化带,各个蚀变带内的主要金属矿物组合变化依次为黄铁矿+斑铜矿±硫砷铜矿±蓝辉铜矿,黄铁矿+蓝辉铜矿+铜蓝+硫砷铜矿±斑铜矿,褐铁矿+针铁矿+自然金+次生铜蓝+孔雀石,黄铁矿+斑铜矿+硫砷铜矿+蓝辉铜矿。在空间分布上,主要的矿石矿物在水平方向上从斑铜矿渐变为蓝辉铜矿,垂直方向上从上部的自然金+褐铁矿向下变为蓝辉铜矿+斑铜矿,深部变为铜蓝±蓝辉铜矿。蚀变分带与金属矿物组合的空间分布都体现出在靠近火山机构及深度增加的过程中成矿热液的硫逸度和氧逸度越来越高。矿石中还出现了具有指示意义的含锡矿物。这些特征都表明紫金山金铜矿是含矿热液多期次叠加的结果。金的富集成矿和金铜的矿化分带受北西向与北东向密集节理交汇带的控制。     

福建紫金山矿床硫砷铜矿的成因研究

福建紫金山铜矿是我国高硫化型浅成低温热液矿床研究的热点之一。本文针对该矿床中普遍发育的硫砷铜矿进行了仔细的矿相观察及电子探针化学成分分析,对其成因进行了初步研究。该矿床中硫化物矿物之间存在着一定的交代、穿插以及化学组分的继承关系。矿物生长遵循黄铁矿-硫砷铜矿-斜方蓝辉铜矿、蓝辉铜矿-铜蓝的交代生长顺序。结合室内水热反应模拟实验结果,推测矿床经历了2期、4阶段热液事件:第1期第1阶段形成黄铁矿;第2阶段形成硫砷铜矿;第2期第1阶段形成各种铜硫化物,铜蓝在第2期第2阶段形成。其中硫砷铜矿中的砷元素来自于岩浆热液,其显示出交代先成黄铁矿的特征,也有少量结晶于矿石的较大裂缝处形成自形柱状晶体。表生带中的硫化物矿物曝露在地表或潜水中遭受风化剥蚀,逐渐形成高硫型浅成热液,并沿构造裂隙持续下渗至岩体附近受热折返,在下渗和折返的过程中交代先成的黄铁矿和硫砷铜矿,生成斜方蓝辉铜矿和蓝辉铜矿等铜硫化物,该交代反应符合"耦合的溶解再沉淀"的成因机制。热液下渗和受热折返是1个循环往复的过程。     

西藏多龙矿集区发现浅成低温热液型铜(金银)矿床

根据2013年最新勘查成果、详细的地质编录,对西藏多龙铜金矿集区铁格龙南(荣那)铜(金银)矿床地质特征、矿床类型进行了初步研究,认为该矿床是斑岩-浅成低温热液成矿系统的产物,是典型的高硫型浅成低温热液矿床。矿床规模巨大,矿石中发育条带状、层纹状、皮壳状、致密块状明矾石、地开石,深部发育黄铁绢英岩化,黄铁矿的含量为3%~35%,矿石矿物由铜蓝、蓝辉铜矿、硫砷铜矿、斯硫铜矿、雅硫铜矿、久辉铜矿、斜方蓝辉铜矿、斑铜矿、黝铜矿、黄铜矿等组成。综合研究表明,推断浅部或外围发育独立的高硫型浅成低温热液型金矿,深部存在斑岩型铜(金银)矿体。该矿体的发现结束了西藏至今没有发现典型浅成低温热液矿床的历史,对区域找矿具有极其重要的指导意义。     

印度尼西亚格拉斯贝格铜金矿床研究新进展

位于印度尼西亚新几内亚岛西部伊里安查亚省的格拉斯贝格铜金矿床是世界上最大的铜金矿床之一。对该矿床的形成背景、矿体特征及其成因进行了总结,结果表明:矿体主要赋存在格拉斯贝格杂岩体中,矿体从海拔4 600m的地表一直延伸到海拔3 000m的深部,而在海拔3 000m以下仍可能存在矿化;主要矿石矿物为黄铜矿、斑铜矿、蓝辉铜矿、辉铜矿、磁铁矿、黄铁矿等;围岩蚀变主要有钾化、磁铁矿化和绢云母化等;同位素年代学证据表明其成矿时代为上新世,属于典型的环太平洋西部新生代斑岩型铜金矿床;流体包裹体的研究表明该矿床的成矿流体为高盐度、高温和高成矿金属浓度的岩浆流体。     

论金属矿物的生物结构 四川龙池含铜砂页岩中铜矿物的木质细胞结构

本文重点论述了四川龙池含铜砂页岩中铜矿物的木质细胞结构特征。探讨了蓝辉铜矿,辉铜矿和自然铜的木质细胞结构的形成条件。     

会理县鹿厂－大铜厂银铜矿矿石学研究

会理鹿厂－大钢厂银铜矿的矿石矿物主要由辉铜矿、蓝辉铜矿、斑铜矿、硫铜银矿、硒铜银矿及硫硒铜银矿组成，且与胶结物方解石密切共生；矿石主要是结晶粒状与交代溶蚀结构，浸染状构造。该矿床为典型的沉积成岩成因砂岩砾岩型银铜矿。     

紫金山金铜矿床深部成矿作用研究和找矿前景评价的关键

紫金山铜金矿床是典型的高硫化浅成低温热液矿床, 发育巨厚的热液蚀变帽, 多孔状石英和高级泥化蚀变带等标志性特征; 特别是在金矿体之下出现垂直厚度超过1000米的巨大铜矿体, 属于蓝辉铜矿－铜蓝－硫砷铜矿－明矾石矿物组合的高硫化型浅成低温热液铜矿床类型, 铜硫化物的矿物学研究预示着深部可能变为斑岩型铜矿床。     

基于XRF的紫金山铜矿床硫地质特征

福建紫金山铜矿床属高硫浅成中低温热液矿床,矿石中主要含铜矿物为蓝辉铜矿、铜蓝和硫砷铜矿等,且铜矿物与黄铁矿密切共生。由于铜矿石中硫含量较高,导致铜精矿中硫含量超标,w(S)/w(Cu)比值为2.0~2.1,远高于冶炼要求的1.15~1.20,影响其经济价值。使用X射线荧光(XRF)光谱分析对紫金山铜矿中S元素的分布进行数字化研究,查明硫的空间分布规律和赋存状态,划分铜矿石类型,为紫金山铜矿今后的采选工作提供参考。     

Geology of the High Sulfidation Copper Deposits,Monywa Mine,Myanmar

The 50 km² Monywa copper district lies near the Chindwin River within the northward continuation of the Sunda‐Andaman magmatic arc through western Myanmar. There are four deposits; Sabetaung, Sabetaung South, Kyisintaung, and the much larger Letpadaung 7 km to the southeast. Following exploration drilling which began in 1959, production of copper concentrates from a small open pit started at Sabetaung in 1983. Since 1997, when resources totaled 7 million tonnes contained copper in 2 billion tonnes ore, a heap leach–electro‐winning operation has produced over 400,000 t copper cathode from Sabetaung and Sabetaung South. Ore is hosted by mid‐Miocene andesite or dacite porphyry intrusions, and by early mid‐Miocene sandstone and overlying volcaniclastics including eruptive diatreme facies which the porphyries intrude. District‐wide rhyolite dykes and domes with marginal breccias probably post‐date andesite porphyries in the mine area and lack ore‐grade copper. Host rocks to mineralization are altered to phyllic and advanced argillic hydrothermal assemblages within an outer chlorite zone; hypogene alunite is most abundant at Letpadaung and Kyisintaung. Most mineralization is structurally‐controlled with digenite‐chalcocite in breccia dykes, in steeply dipping NE‐trending sheeted veins, and in stockwork and low‐angle sulfide veins. A high‐grade pipe at Sabetaung grades up to 30% Cu, and much of the ore at Sabetaung South is in a NE‐trending zone of mega‐breccia and stockworked sandstone. The hydrothermal alteration, together with replacement quartz, alunite and barite in breccia dykes and veins, the virtual absence of vein quartz, and the presence of chalcopyrite and bornite only as rare veins and as inclusions within the abundant pyrite, indicate that the deposits are high sulfidation. Regional uplift, resistance to erosion and leaching of the altered and mineralized rocks have resulted in porous limonite‐stained leached caps over 200 m thick forming the Letpadaung and Kyisintaung hills. The barren caps pass abruptly downwards at the water table into the highest grade ore at the top of the supergene enrichment zone, within which copper grade, supergene kaolinite and cubic alunite decrease, and pyrite increases with depth; in contrast, marcasite is mostly shallow. Much of the copper to depths exceeding 200 m below the water table occurs as supergene digenite‐chalcocite and minor covellite. Disseminated chalcocite is mostly near‐surface and hence almost certainly supergene. We infer that during prolonged uplift at all four deposits, oxidation of residual pyrite at the water table generated enough acid to leach all the copper from earlier supergene‐enriched ore; below the water table the resulting acid sulfate solutions partly replaced enargite, covellite, chalcopyrite, bornite and pyrite with supergene chalcocite. Undeformed upward‐fining cross‐bedded conglomerates and sands of the ancestral Chindwin River floodplain overlie the margins of the Sabetaung deposits, form a major aquifer up to 40 m thick, and are a potential host for exotic copper mineralization. A mid‐Miocene pluton is inferred to underlie the Monywa deposits, but the possibility of porphyry‐type mineralization within the district is at best highly speculative.     

巴布亚新几内亚奥克泰迪铜金矿床成矿特征和控制因素

巴布亚新几内亚西部Fubilan山奥克泰迪矿床是一个世界级铜金矿床,在大地构造上位于新几内亚造山带的巴布亚褶皱带。该矿床的铜金矿化赋存于Fubilan二长斑岩及其周边的磁铁矿夕卡岩和硫化物夕卡岩中。矿石类型以原生硫化物矿石为主,金属矿物包括磁铁矿、黄铁矿、磁黄铁矿、白铁矿、黄铜矿、斑铜矿等。蚀变类型包括夕卡岩化、钾化、泥化和青盘岩化。矿床氧化次生富集带发育,表生矿石矿物为蓝辉铜矿、辉铜矿、自然铜、铜蓝和银金矿。成矿作用主要受区域构造、侵入杂岩体、Darai组灰岩地层、断裂等因素的控制。根据矿床的主岩、矿石特征、蚀变特征和控矿因素,认为该矿床成因类型属于较为典型的夕卡岩一斑岩型矿床。     

Genetic Aspects of the Manto-type Copper Deposits Based on Geochemical Studies of North Chilean Deposits

Recent studies on mineralogy, geochronology, fluid inclusion and stable isotope (Pb, Os, S, C, O, Sr) characteristics were reviewed to determine constraints for genetic models of the Chilean manto‐type copper deposits. The Chilean manto‐type deposits are divided into the two geologic categories of the northern areas (Arica–Iquique, Tocopilla–Taltal) and the central areas (Copiapó, La Serena, Santiago). The former is distributed in the coastal range composed of Jurassic andesite‐dominated volcano‐sedimentary piles and younger plutonic intrusions, and yields chalcocite (‐digenite) and bornite as the principal hypogene copper sulfides. The latter is hosted mostly in Lower Cretaceous volcano‐sedimentary sequences, and has chalcopyrite‐rich mineral associations. The fluid inclusion data indicate that the primary copper mineralization was commonly generated in the temperature range 150–360°C under low‐pressure conditions near the boiling curve, mediated with relatively saline brines. Generally, homogeneous Pb and S isotope compositions for primary copper minerals imply direct magma source or leaching of igneous rocks. Pb and Os isotope data published for some deposits, however, suggest that ore‐forming metals were derived mainly from the volcano‐sedimentary host rocks. The noticeably negative isotope ratios of primary sulfide sulfur and hydrothermal calcite carbon of some central area deposits indicate influx of sedimentary rock components, and the high ⁸⁷Sr/⁸⁶Sr initial ratios of hydrothermal calcite from the Tocopilla–Taltal area deposits imply contribution of the contemporaneous seawater or marine carbonates. These isotopic constraints imply a formation mechanism in which the Chilean manto‐type copper deposits formed epigenetically in the process of hydrothermal interaction of non‐magmatic surface‐derived brine with the volcano‐sedimentary host rocks, which is inferred to have been induced by a deep‐seated plutonic complex as the possible heat source.     

陕西省潼关县碾头岔含金石墨矿工艺矿物学研究

工艺矿物学系统研究表明：碾头岔含金石墨矿床的矿石中除石墨外,可综合利用的有用元素还有金、铜等。金矿物颗粒较细,主要以独立矿物形式赋存于载体矿物黄铜矿、黄铁矿及石墨中。黄铜矿是主要的铜矿物,其次有蓝辉铜矿。石墨呈独立矿物存在,片大且较平直,属于大鳞片石墨,矿石中总碳仅有６５％左右以石墨碳形态存在。上述３种有用元素均可通过合理磨矿,选择适宜的选矿条件得到金精矿、铜精矿和石墨精矿。然而由于石墨精矿中杂质较多且颗粒细小,主要为极细的片状硅酸盐,要得到高品级石墨,用机械选矿办法是无能为力的,需要对精矿进一步加工处理方可奏效。     

五子骑龙矿床——被改造的斑岩铜矿上部带

五子骑龙矿床产于紫金山矿田的一个早白垩世火山管道旁侧。火山管道中充填的英安斑岩向深部逐渐相变为花岗闪长斑岩。由于后期断裂的破坏，该花岗闪长斑岩及其矿化系统被上冲到与五子骑龙矿床相邻的中寮矿床近地表位置，从而形成斑岩型铜矿床－中寮矿床。五子骑龙矿床中，环绕英安斑岩发育明矾石化、迪开石化、埃洛石化和红柱石化蚀变，这些蚀变是改造并叠加早期绢英岩化蚀变的结果。其铜矿石中的铜蓝、硫砷铜矿和蓝辉铜矿，也经常交     

福建省紫金山铜金矿床成矿物理化学条件的研究

紫金山高硫浅成低温热液型铜金矿床以一套独具特色的由地开石、明矾石组成的高级泥质蚀变和由硫砷铜矿、蓝辉铜矿、铜蓝组成的铜矿物组合为特征。本文根据矿床的蚀变矿物和矿石矿物组合及矿物的相互关系，着重应用热力学的原理与方法研究矿床形成的物理化学条件。认为形成这一类型矿床的流体是一种高氧逸度、高硫逸度的中低温酸性流体。