共查询到20条相似文献,搜索用时 468 毫秒
1.
矿石结构和电子探针成分研究表明,福建梅仙铅锌矿区闪锌矿中的黄铜矿产生体,除了形成高度分散的乳滴外,还呈棒条状、蠕虫状和叶片状沿闪锌矿的解理和双晶界面分布。这种交生体除了部分可能是出溶产物外,主要应是黄铜矿交代闪锌矿的产物。交代过程中由溶液带入的不仅有铜,而且还有铁。当交代热液前锋在硫化物矿床中不断向前推进时,锌和铅不断深解而铜不断沉淀,于是先存的硫化物矿体便不断受到带状提炼。因带状提炼而发生再活化转移的锌和铅,在环境物理化学条件发生改变时便重新沉淀,从而在梅仙矿区上方形成了贫铜的锌-铅矿体。 相似文献
2.
3.
热液脉型铅-锌-银矿床富铁闪锌矿中硫化物包裹体成因探讨 总被引:12,自引:3,他引:9
通过对热液脉型的铅-锌-银矿床(3个)和银矿床(1个)和闪锌矿中硫化物包囊体的特征研究表明,石英-硫化物阶段富铁闪锌矿(主矿物)的硫化物包裹体十分发育:沿生长带产出的乳滴状黄铜矿与主矿物为共同沉淀成因;沿穿切主矿物的黄铜矿或石英细脉两侧,和受粗粒黄铜矿溶蚀的富铁闪锌矿近接触部位发育的乳滴状黄铜矿为渗透-交代产物;沿解理(裂隙)或粒间、粒内产出的各种形态磁黄铁矿是充填-交代的结果;沿解理分布的脉状毒 相似文献
4.
都龙Sn-Zn多金属矿床位于滇东南老君山锡锌钨多金属成矿区南部,是中国3大锡石硫化物矿床之一。该矿床发育闪锌矿-黄铜矿-磁黄铁矿密切共生结构,即硫化物交生结构。文章利用电子探针和LA-MC-ICP-MS对具有交生结构的闪锌矿-黄铜矿-磁黄铁矿和毒砂进行了微区主量元素和硫同位素测试,以期明确其成因及硫的来源。主量元素测试结果显示,闪锌矿中的w(Zn)为52.23%~57.22%,w(S)为33.06%~36.10%,w(Fe)为9.92%~12.24%,w(Cu)为0.11%~0.30%;黄铜矿中的w(Cu)为33.95%~35.08%,w(S)为33.49%~35.27%,w(Fe)为30.74%~31.41%,w(Zn)为0.04%~1.50%;磁黄铁矿中的w(Fe)为49.30%~51.94%,w(S)为38.36%~39.69%,w(Zn)为9.35%~11.01%,w(Cu)为0.05%~0.15%。磁黄铁矿和黄铜矿包裹体边部和核部成分均一,且投影点全部落在固溶体出溶区域,说明都龙矿床交生闪锌矿-黄铜矿-磁黄铁矿是固溶体分离成因。原位S同位素分析结果显示,闪锌矿的δ34S为0.9‰~3.2‰,磁黄铁矿的δ34S为0.6‰~2.1‰,毒砂的δ34S为2.9‰~4.2‰,黄铜矿的δ34S为0.6‰~2.8‰,均显示为岩浆来源特征。主量元素温度计估算的闪锌矿-黄铜矿的形成温度介于285~394℃,指示该矿床主要硫化物形成于中高温阶段。 相似文献
5.
根据闪锌矿黄铜矿固溶体分离结构探讨成矿过程中的温度变化速度 总被引:1,自引:0,他引:1
用高温高压模拟试验研究了闪锌矿-黄铜矿固溶体的出溶过程,测定了闪锌矿、黄铜矿在300 ̄700℃之间的相互溶解度的固溶体出溶时闪锌矿在黄铜矿中的黄铜矿在闪锌矿中的扩散系数;推导了出溶物厚度与过饱和度,生长温度及生长时间的关系;并依此计算闪锌矿黄铜矿固溶体分离结构形成的持续时间,探讨成矿作用过程中成矿作用温度的变化速度。 相似文献
6.
7.
福建碧田铜金银矿床中的含银黄铜矿研究 总被引:2,自引:0,他引:2
福建碧田矿床是成因上与燕山晚期次火山岩有关的铜金银矿床。含银黄铜矿产于该矿床的金银矿石和银矿石中。含银黄铜矿呈粒度约0.004-0.07mm的他形粒状与银金矿,金银矿,自然银,辉银矿,黄铜矿,闪锌矿等共生,在空气中极易氧化。含银黄铜矿的银含量变化在1.045%-14.273%之间,平均值为4.37%。与黄铜矿比较,含银黄铜帮中硫含量变化不大,但铁与银有反消长关系。 相似文献
8.
《矿物岩石地球化学通报》2017,(6)
为探讨新疆坡北岩体坡七侵入体中铜镍硫化物矿(化)体的成因,采用显微镜观察、磁性胶体浸润和电子探针分析等方法,对主要的金属矿物磁黄铁矿、镍黄铁矿开展了成因矿物学研究。结果表明,浸染状、稠密浸染状矿石中,磁黄铁矿为六方(NC型)磁黄铁矿,或六方磁黄铁矿与散点状单斜(4C型)磁黄铁矿构成的不规则状交生体。六方磁黄铁矿是高温结晶后缓慢降温的产物,而不规则状交生体是流体交代六方磁黄铁矿的结果。块状矿石中的磁黄铁矿是六方与单斜变体构成叶片状/箱状交生体,其成因与快速降温和热事件干扰有关。镍黄铁矿富集Co,在各类矿石中均可分为3个世代(Pn1,Pn2,Pn3),在结晶过程中硫逸度随着温度的降低而减小。等轴晶系辉砷钴矿、自形镍黄铁矿及高温黄铜矿的晶出暗示金属硫化物结晶温度普遍偏高。 相似文献
9.
10.
内蒙古珠斯楞地区为我国北山成矿带的东延区,格日勒图铜多金属矿是近些年在该区发现的重要铜多金属矿床,矿床赋存于上石炭统白山组上段(C2b2)火山岩。为研究该矿床的成因类型,本文开展对矿石矿物组构、矿石地球化学、石英包裹体和矿物电子探针等分析测试。结果表明,矿石中的脉石矿物主要为石英,石英中包裹体气液比15%~40%,均一温度156℃~395℃,平均温度为308.7℃。盐度(wt%NaCl)2.41~6.64,平均为4.34,属于低盐度中高温流体。石英中的气体包裹体可分为两种类型,一类为N2+ CH4,另一类为N2。综合研究认为该矿床的成因类型为岩浆热液型矿床。铜多金属矿体在垂向具有明显的分带,上部发育高品位的次生富集带,金属硫化物主要为蓝辉铜矿、辉铜矿、黄铁矿、闪锌矿和少量的砷黝铜矿、黄铜矿等;下部主要为黄铁矿、闪锌矿、方铅矿、黄铜矿和砷黝铜矿等。矿床的形成可初步划分为火山沉积成岩期、岩浆热液成矿期和表生成矿期。研究认为在该矿床深部及外围地区依然具有较大的找矿潜力。 相似文献
11.
The Laloki and Federal Flag deposits are two of the many (over 45) polymetallic massive sulfide deposits that occur in the Astrolabe Mineral Field, Papua New Guinea. New data of the mineralogical compositions, mineral textures, and fluid inclusion studies on sphalerite from Laloki and Federal Flag deposits were investigated to clarify physiochemical conditions of the mineralization at both deposits. The two deposits are located about 2 km apart and they are stratigraphically hosted by siliceous to carbonaceous claystone and rare gray chert of Paleocene–Eocene age. Massive sulfide ore and host rock samples were collected from each deposit for mineralogical, geochemical, and fluid inclusion studies. Mineralization at the Laloki deposit consists of early‐stage massive sulfide mineralization (sphalerite‐barite, chalcopyrite, and pyrite–marcasite) and late‐stage brecciation and remobilization of early‐stage massive sulfides that was accompanied by late‐stage sphalerite mineralization. Occurrence of native gold blebs in early‐stage massive pyrite–marcasite‐chalcopyrite ore with the association of pyrrhotite‐hematite and abundant planktonic foraminifera remnants was due to reduction of hydrothermal fluids by the reaction with organic‐rich sediments and seawater mixing. Precipitation of fine‐grained gold blebs in late‐stage Fe‐rich sphalerite resulted from low temperature and higher salinity ore fluids in sulfur reducing conditions. In contrast, the massive sulfide ores from the Federal Flag deposit contain Fe‐rich sphalerite and subordinate sulfarsenides. Native gold blebs occur as inclusions in Fe‐rich sphalerite, along sphalerite grain boundaries, and in the siliceous‐hematitic matrix. Such occurrences of native gold suggest that gold was initially precipitated from high‐temperature, moderate to highly reduced, low‐sulfur ore fluids. Concentrations of Au and Ag from both Laloki and Federal Flag deposits were within the range (<10 ppm Au and <100 ppm Ag) of massive sulfides at a mid‐ocean ridge setting rather than typical arc‐type massive sulfides. The complex relationship between FeS contents in sphalerite and gold grades of both deposits is probably due to the initial deposition of gold on the seafloor that may have been controlled by factors such as Au complexes, pH, and fO2 in combination with temperature and sulfur fugacity. 相似文献
12.
Surface water samples from the Drake mining area show elevated metal concentrations, notably cadmium, iron and zinc. A detailed
study of a sphalerite /quartz vein from Strauss Pit and chalcopyrite and pyrite from the Adeline mine and Strauss Pit indicate
that micro-scale analyses of ores are necessary for environmental management of mine sites. Analyses show that Cd is elevated,
up to 2.1 % by weight, and is associated with sphalerite, replacing Zn, or to a lesser extent replacing Pb within small galena
grains. High concentrations of Cu are also associated with the Strauss Pit ore as small chalcopyrite grains along the margins
of the sphalerite vein, within the central quartz zone of the vein system, and as replacement rims on sphalerite grains. Chalcopyrite
from the Adeline mine area, is by comparison, metal poor, but still contains elevated heavy metal concentrations. Whereas,
pyrite and chalcopyrite, from Strauss Pit have variable heavy metal concentrations, with chalcopyrite from within sphalerite
veins having higher Cd and Zn concentrations than chalcopyrite distal to the veins. Cadmium and other heavy metals within
the ores are mobilised during sulphide weathering and enter the drainage network; precipitation of secondary oxidation minerals
act as temporary stores for many heavy metals. The complexity of the mineral and heavy metal associations at Strauss Pit suggest
that a detailed knowledge of these associations and distributions within ore bodies, and associated waste rocks, are needed
by environmental managers of mine sites because the presence of havy metals may greatly affect the decision making process,
and management strategies employed.
Received; 14 July 1999 · Accepted: 17 August 1999 相似文献
13.
Polymetallic Mineralization at the Nakakoshi Copper Deposits, Central Hokkaido, Japan 总被引:6,自引:0,他引:6
Abstract: Polymetallic mineralization at the Nakakoshi deposits, Kamikawa town, central Hokkaido, occur as fracture-filling veins in Cretaceous slate of the Hidaka Supergroup. Ten veins have been recognized in NE-SW and E-W directions. Sericite in altered slate which is the host of the deposits, was dated at 31. 1 Ma, Oligocene in age.
No. 9 vein consists of massive chalcopyrite ore with various kinds of minerals such as pyrite, pyrrhotite, arsenopyrite, sphalerite, tetrahedrite, Ag-minerals and Cu–Zn–Fe–In–Sn–S minerals, quartz and sericite. Chalcopyrite and pyrite contain sphalerite star and sphalerite with chalcopyrite emulsions. Maximum indium contents of sphalerite and the Cu–Zn–Fe–In–Sn–S minerals are 1. 8 and 16. 3 wt%, respectively. The sulfur isotopic ratios, δ34 S of ore minerals, range from –12. 9 to –9. 6%. Formation temperatures of the sulfide minerals are estimated as 300–500°C, based on the paragenesis and chemical compositions of the minerals. 相似文献
No. 9 vein consists of massive chalcopyrite ore with various kinds of minerals such as pyrite, pyrrhotite, arsenopyrite, sphalerite, tetrahedrite, Ag-minerals and Cu–Zn–Fe–In–Sn–S minerals, quartz and sericite. Chalcopyrite and pyrite contain sphalerite star and sphalerite with chalcopyrite emulsions. Maximum indium contents of sphalerite and the Cu–Zn–Fe–In–Sn–S minerals are 1. 8 and 16. 3 wt%, respectively. The sulfur isotopic ratios, δ
14.
我国是世界上最大的铜精矿进口国,研究不同产地铜精矿的矿物学特征,能支撑铜精矿原产地分析及相关固体废物属性鉴定。本文研究对象为来自8个国家12个矿区的进口铜精矿样品,采用X射线荧光光谱(XRF)、X射线粉晶衍射(XRD)以及偏光显微镜进行综合分析,探寻这些矿区铜精矿的元素组成、矿物组合特征,探讨不同成因类型铜精矿的矿物学差异。X射线荧光光谱分析表明铜精矿样品主要元素为Cu、Fe、S、O,普遍含有Zn、Si、Al、Mg、Ca、Pb;X射线粉晶衍射物相分析表明铜精矿样品主要物相为黄铜矿,其次常含有黄铁矿和闪锌矿等物相;偏光显微镜光片鉴定表明铜精矿样品金属矿物中黄铜矿的含量在88%~98%之间,观察到黄铜矿与闪锌矿、黄铁矿、磁黄铁矿共生,闪锌矿与斑铜矿、砷黝铜矿共生,黄铜矿、砷黝铜矿和斑铜矿共生等连生体矿相。结合铜精矿不同成矿类型分析表明,斑岩型、矽卡岩型、火山成因块状硫化型铜矿床样品中常见黄铜矿、黄铁矿、闪锌矿,并分别含有黑云母、草酸钙石、硫酸铅特征矿物;铁氧化物铜金矿床样品主要矿物为黄铜矿,常见磁黄铁矿、滑石特征矿物。通过本文采用多种技术表征不同产地铜精矿样品元素含量、物相组成、矿相组成的差异,能够全面分析不同产地铜精矿样品的矿物学特征,对进口铜精矿的风险识别和管控具有重要意义。 相似文献
15.
Chalcopyrite Intergrowths in sphalerite in the Meixian Lead—Zine Deposit,Fujian Province and their Metallogenic Significance 总被引:2,自引:0,他引:2
Ore textures and electron microprobe analyses show that in addition to highly scattered blebs in sphalerite grains,intergrown chalcopyrite also occurs as rods,myrmekites and lamellae aligned along cleavages and twin boundaries of the host sphalerite.The majority of the intergrowths could have been formed by replacement of sphalerite by chalcopyrite,albeit part of them may have resulted from exsolution,Not only copper,but also iron were introduced into the sphalerite by replacive fluids.While the front of the replacing fluid was moving forward through a sulphide orebody,Zn and Pb were dissolved and Cu was precipitated,resulting in zonal refining of the sulphide ores,The remobilized zinc and lead were precipitated at favourable sites with changed physico-chemical conditions .This is a possible mechanism for the formation of copper-poor zinc and lead ores above or lateral to the copper orebodies in some of the massive sulphide deposits reworked and overprinted by late-stage granites and their hydrothermal fluids. 相似文献
16.
江西省广昌县竹坑铜银矿床位于华南板块南华造山带武夷隆起区中段,江西省广昌县和福建省建宁县交界处。本次研究从矿床地质特征入手,对矿床不同类型矿石的黄铜矿、黄铁矿、闪锌矿所含元素含量用电子探针进行测定,分析不同类型矿石的黄铜矿、黄铁矿、闪锌矿的地球化学特征,从而推断竹坑矿床成因。研究表明矿体赋矿围岩主要有震旦系下统上施组混合花岗岩;矿体赋存于北东向F4断裂构造内,均受北北东向、北西向断裂构造共同制约;铜银矿体形态较简单,呈脉状、似层状、船状产出;竹坑铜银矿化与碳酸盐化、硅化、黄铁矿化蚀变紧密相关。矿石中黄铁矿Fe/S平均值0.82~0.83,小于0.875,Co/Ni比值1.26~53;显示出热液成因特点。矿石中黄铜矿平均成分的矿物化学式为Cu 0.933 Fe 0.971 S 2,显示竹坑矿床中黄铜矿普遍富硫的特点;矿石中闪锌矿呈红褐色,闪锌矿中Fe含量为8.466%~10.748%,平均值为9.334%,含量明显偏高;从而表明了矿床黄铜矿形成于中低温环境。综上现象推断广昌县竹坑铜银矿床属中低温热液型矿床。 相似文献
17.
New investigations are carried out on the mineralogy and mineral chemistry of sulfide assemblages obtained in samples from one core in the hydrothermally active, southwest basin of the Atlantis II deep, Red Sea. The most abundant sulfide phases are the exsolved intermediate solid solution (ISS) and chalcopyrite. Sphalerite, pyrrhotite, marcasite, mackinawite, and presumably wurtzite are also observed. Two distinct groups of paragenesis were encountered: (a) Intermediate solid solution with sphalerite incrustations and intergrowths, and (b) intermediate solid solution barren of sphalerite intergrowths. The first group is confined to the upper part of the Co zone and the SOAN zone (Bäcker and Richter 1973), and the second is present in the entire core 100-3-7. An optically isotropic chalcopyrite is found for the first time as a natural mineral in Atlantis II, Red Sea. Yet its existence as a novel phase needs x-ray confirmation. It exhibits a lower reflectivity than normal chalcopyrite and is isotropic. Chalcopyrite occurs either as a single phase or in association with tetragonal chalcopyrite. Our investigations indicate that the formation of Atlantis II deposits is a result of complex processes. These processes are characterized by compositional changes in the ore-bearing fluids and the change in sulfur fugacity (especially with depth). The presence of exsolved chalcopyrite lamellae in ISS indicates slow cooling below 450°C. However, it is difficult to understand why the cubic chalcopyrite is not converted to the tetragonal form even though the temperature of transformation lies above 450°C (470° – 500°C, Cabri 1973). The Cu/Fe ratio changes in the exsolved chalcopyrite lamellae from core to rim of the composite grains. The ratio is higher in the rims. This suggests that primary inhomogenous ISS grains formed from solutions with a continuous increase in the Cu/Fe ratio. Slow cooling is also required to account for the exsolution of chalcopyrite lamellae in ISS. The low sulfur content in isotropic chalcopyrite is also suggestive of low fs2. The low S content in the chalcopyrite may be the controlling factor for the sluggish conversion from cubic to tetragonal chalcopyrite. Mackinawite lamellae show the same orientation in ISS and exsolved isotropic chalcopyrite indicating that mackinawite exsolved before the breakdown of ISS. This strongly suggests that mackinawite is stable above 300°C (contrary to experimental results by Zoka et al. 1973). Pyrrhotite was probably formed by the sulfurization of ilvaite. The pyrrhotite grains with several complex successive zones show the sequence of the sulfurization episodes.Metalliferous sediments related to hot brines were discovered in the Red Sea in 1964 (Miller et al. 1966). Since then, several papers have been published on this subject (Degens and Ross 1969, Bäcker and Schoell 1972, Bäcker and Richter 1973, Bignell et al. 1976, Shanks and Bishoff 1977, Weber-Diefenbach 1977, Nöltner 1979, Pottorf 1980, Pottorf and Barnes 1983, Oudin et al. 1984).Complex sulfide phases including intermediate solid solution (ISS), chalcopyrite, and a chalcopyritelike mineral (which exhibits a lower reflectivity than normal chalcopyrite and appears to be isotropic occur in the metalliferous sediments. These phases were found in association with several minerals in different parageneses. In an attempt to understand the origin of the formation of the sulfide-bearing sediments in the Atlantis II deep of the Red Sea, a detailed study of the phase relations of the Cu-Fe sulfide ores of this locality was carried out. 相似文献
18.
Abstract: A strange, unidentified, Cu-Fe bearing zinc sulfide occurs in the Laloki massive sulfide deposit, Papua New Guinea. The mineral is optically uniform in texture but is chemically variable and zoned even within a single grain. Copper contents vary from 0.1 up to 8.85 wt%. Iron reaches 18.31 wt% at maximum and decreases as Cu increases. It is remarkable, however, that the total Fe+Cu remains essentially unchanged between roughly 18 and 20 wt%. Zn and S are least variable, giving 45.85–47.84 wt% and 33.48–34.58 wt%, respectively. Other trace elements such as Cd and Mn are in general less than 0.2 wt%. It is strongly suggested that the mineral in question constitutes a unique Fe-Cu substitutional solid solution series belonging essentially to the Zn–Fe–Cu–S system.
The ideal chemical formula of the solid solution series can well be presented as Zn10 (Fe, Cu)5 S15 or Zn2 (Fe, Cu)S3 , where Fe is always greater than Cu. It is intriguing that chalcopyrite blebs are recognizable restrictively only in nearby portions of the Cu-rich end member with the ideal composition close to Zn10 Fe3 Cu2 S15. It has been confirmed by vacuum-sealed heating experiments that this mineral is decomposed to produce chalcopyrite and Fe-bearing normal sphalerite at temperatures below 200C. This would provide another evidence for the existence of such distinct phase as suggested here. 相似文献
The ideal chemical formula of the solid solution series can well be presented as Zn
19.
Abstract. A detail investigation of ore and gangue minerals was performed on the Doyashiki Kuroko deposits, Hokuroku basin, Japan for the first time. Main ore minerals are sphalerite, galena, pyrite, chalcopyrite, tetrahedrite-tennantite and digen-ite. Small amounts of enargite, wittichenite, electrum, covellite, bornite, marcasite and hematite are also observed. Quartz, barite and gypsum are common gangue minerals. Homogenization temperatures and salinities of fluid inclusions in quartz, sphalerite and barite range from 190 to 240C and 3.0 to 5.5 wt% NaCl equivalent, respectively. The FeS contents of sphalerite and Ag contents of electrum were 0.12 to 0.18 mol %, 39.0 to 39.6 atom %, respectively. The chemical composition of digenite as a primary mineral shows high sulfur contents.
These data indicate that ore fluid responsible for digenite and associated ore minerals was characterized by a range of high sulfur fugacity with a moderate formation temperature. This is concordant with the mineral assemblage of bornite-pyrite and chalcopyrite, which shows high sulfur fugacity conditions. It seems that the mineralization closely associated with acidic volcanism has occurred around 13 Ma of Middle Miocene on the seafloor at the depth of about 1500 m. 相似文献
These data indicate that ore fluid responsible for digenite and associated ore minerals was characterized by a range of high sulfur fugacity with a moderate formation temperature. This is concordant with the mineral assemblage of bornite-pyrite and chalcopyrite, which shows high sulfur fugacity conditions. It seems that the mineralization closely associated with acidic volcanism has occurred around 13 Ma of Middle Miocene on the seafloor at the depth of about 1500 m. 相似文献
20.
新疆小热泉子铜(锌)矿床硫化物显微结构及稀土、微量元素研究 总被引:2,自引:0,他引:2
新疆小热泉子铜(锌)矿床位于大南湖晚古生代岛弧带内,矿体主要赋存于一套凝灰质火山碎屑沉积岩中,矿石类型主要为块状黄铜矿矿石、闪锌矿矿石和脉状硫化物矿石。硫化物的显微结构研究表明,黄铁矿主要发生脆型变形,形成碎裂结构、细粒化结构、充填交代结构、"布丁"结构以及变斑晶结构,黄铜矿和闪锌矿发生塑性变形,黄铜矿表现为"S型"面理结构以及在闪锌矿中呈团斑状结构,电子探针结果表明黄铜矿发生明显的活化迁移富集作用。硫化物的稀土微量元素研究表明,闪锌矿中Mn、Ga、As等元素含量很低,Ga/In<<1,Ge/In多数小于1,174相似文献