西藏努日矽卡岩型铜钨钼矿辉钼矿 Re-Os定年及其地质意义

西藏努日层状矽卡岩型铜钨钼矿床是冈底斯东段南缘斑岩-矽卡岩铜多金属成矿带上规模最大的矿床。笔者对采自该矿床的9件不同产状、不同形态含钼矿石中的辉钼矿进行了Re-Os同位素组成分析,获得其模式年龄为23.46~24.77 Ma,等时线年龄为(23.36±0.49) Ma(MSWD=0.60),模式年龄与等时线年龄结果基本一致。由于辉钼矿与黄铜矿、白钨矿呈共生关系,并考虑到该矿区内黄铜矿的年龄〔(23.75±0.18) Ma〕(作者未发表数据),表明努日矽卡岩型铜钨钼矿床的成矿时代为23~24 Ma。结合前人研究资料可见,冈底斯南缘克鲁-冲木达斑岩-矽卡岩铜多金属成矿带从32 Ma至23 Ma发生了强烈的成矿作用。该成矿带的成矿时代明显有别于后碰撞期地壳伸展环境下形成的冈底斯斑岩铜矿带,显示出其为一套独立的成矿事件。该成矿事件可能主要受冈底斯南缘的晚碰撞走滑环境的控制。努日矿床成矿时代的确定及晚碰撞成矿事件的厘定,为今后研究和勘查该成矿带内同类型矿床提供了重要依据。     

Chemical composition of rock-forming minerals in granitoids associated with Au–Bi–Cu,Cu–Mo,and Au–Ag mineralization at the Freegold Mountain,Yukon, Canada: magmatic and hydrothermal fluid chemistry and petrogenetic implications

The chemical compositions of rock-forming minerals have been determined for both altered and least-altered igneous rocks spatially associated with numerous mineralized zones (Nucleus Au–Bi–Cu–As deposit, Revenue Au ± Cu and Stoddart Cu–Mo ± W mineral occurrences, and Laforma Au–Ag deposit) across the Freegold Mountain area, Yukon, Canada. Within the study area, K-feldspar has a narrow compositional range (89.4–91% Or), whereas plagioclase spans a wide range (4.4–70.07% An). In all of the investigated samples, T _Ab = T _An = T _Or, suggesting that magmatic equilibrium between the coexisting plagioclase and K-feldspar was maintained. Igneous amphibole phenocrysts from hypabyssal dikes are typically calcic, whereas the Stoddart Cu–Mo ± W, Laforma Au–Ag, and Goldy Au mineralization are associated with Mg-enriched primary amphibole of edenite composition, and Au–Bi–Cu–As mineralization from Nucleus is related to Al-enriched primary amphibole of ferropargasite composition. Primary biotite phenocrysts across the Freegold Mountain area re-equilibrated with oxidized magma (f(O₂) values between 10–13 and 10–11.5 bars, lying between the Ni/NiO and the magnetite/haematite buffers). However, biotite and amphibole phenocrysts from Stoddart, Goldy, Laforma, and the Highway zones crystallized from a more oxidized magma, as indicated by their elevated X _Mg up to 0.65, relative to biotite and hornblende from Nucleus and Revenue characterized by a lower X _Mg (typically < 0.50). This suggests that various sources and (or) rapid emplacement were involved in magma genesis, as further supported by the considerable variation of pressure (1.8–7.3 kb) of amphibole crystallization and of the total Al content in least-altered biotite (2.6–2.9 afu) within the Freegold Mountain area. Biotite and apatite equilibrated within the T range of 520–780°C, consistent with temperatures of equilibration between ilmenite and magnetite, and their compositions indicate that they formed from an oxidized I-type magma. Magma differentiated by fractional crystallization (indicated by the presence of normally zoned plagioclase with Ca-rich cores and Na-enriched outer rims) and multiple magma mixing (supported by the presence of reversed zoned plagioclase and coexistence of normally and reversely zoned plagioclase). Lower X _Mg biotite associated with the mineralized (Cu–Mo ± W) potassic alteration incorporated more F and Cl relative to least-altered biotite with higher X _Mg. In both Nucleus and Revenue Au–Cu mineralizations, secondary biotite composition varies with respect to the associated alteration mineral assemblages. Although secondary biotite in the skarn re-equilibrated with F-poor fluids, secondary biotite from the pervasive biotitization is related to F- and Cl-enriched fluids, and secondary biotite from the phyllitic zone is related to F-, Cl-, and Mg-depleted fluids, thus consistent with a change in mineralizing fluid composition during mineralization.     

金矿焙烧工艺生产处理液中汞测量不确定度的评定

本文针对原子荧光对金矿焙烧工艺生产中汞处理液的测定,找出了影响其测量不确定度的因素,建立了数学模型,计算出各不确定度的分量,求出合成标准不确定度及扩展不确定度。     

钼矿石物相的快速分析方法

钼矿石的主要矿物有辉钼矿,其次是钼钨钙矿、铁钼华矿、钼华矿和钼酸铅矿。样品经碱熔融分解,硫氰酸盐比色法测定总钼;利用电感耦合等离子体质谱法测定氢氧化铵溶解钼华中的钼;酒石酸溶解钼钨钙矿中的钼;碳酸钠溶解钼酸铅矿中的钼;盐酸溶解铁钼华矿中的钼。方法对不同钼矿石样品进行了5种钼矿石物相分析,结果与实际地质成矿组分符合。     

王水溶样-电感耦合等离子体发射光谱法同时测定铁铜铅锌硫化物矿石中8个元素

建立了王水溶样-电感耦合等离子体发射光谱法同时测定铁、铜、铅、锌硫化物矿中Cu、Pb、Zn、As、Ag、Cd、Hg和Mo等8个元素的分析方法。确定了方法的溶矿及测定条件,用国家一级标准物质GBW07162(多金属贫矿石)和GBW07164(多金属矿石)进行精密度实验,除个别元素外,大多数的元素精密度(RSD,n=11)小于5%,准确度(RE)小于10%。通过一系列硫化物矿石标准物质进行方法验证,检测结果基本都在标准值的误差范围内,符合地质矿产开发的要求。方法简单,同时测定元素较多,线性范围宽,检出限低,尤其有利于硫化物矿石中的亲硫元素As、Ag、Hg的分析,实用性强。     

嗜酸性氧化亚铁硫杆菌与硫化物矿石相互作用的实验研究

实验研究了嗜酸性氧化亚铁硫杆菌(Acidithiobacillus ferrooxidans,简称A.f)与硫化物矿石之间的相互作用,以观察不同矿石矿物发生微生物氧化和形成次生矿物的差异。采用ICP-OES分析了反应前后溶液成分变化,利用扫描电子显微镜(SEM)、能谱分析(EDS)和X射线衍射(XRD)等分析手段研究了矿石表面形貌的变化和沉淀物的矿物组成。分析结果表明,A.f对同一矿石中不同矿物作用强度存在明显差异,方铅矿、闪锌矿发生强烈氧化分解,而与黄铁矿的相互作用则较弱。这种差异可能与矿物晶体结构有关,在多种矿物并存的情况下,可能发生了原电池反应,作为阴极的黄铁矿受到保护,而作为阳极的闪锌矿、方铅矿的氧化作用得到促进,总体上表现为A.f对矿石硫化矿物的选择性作用。     

福建尤溪山头顶银金多金属矿土壤异常特征及找矿效果

尤溪山头顶矿区通过土壤测量,分析多元素衬度累加异常特征、异常元素组合特征,优选异常进行查证,经地表探槽揭露及深部钻孔验证,发现2个规模较大的银金多金属矿（化）带,新发现银金多金属矿体12个,取得较好的找矿效果.     

富集铊汞砷的生物是滥木厂铊矿床找矿和铊矿区污染的标志

滥木厂铊矿区植物和动物中Ｔｌ、Ｈｇ、Ａｓ含量变化总的趋势是以Ｈｇ最高,Ｔｌ次之,Ａｓ最低为特点。它们明显受生物赖以生存的地质地球化学和生物地球化学环境制约,尤其是矿区水、土壤和岩、矿石中高背景Ｔｌ、Ｈｇ、Ａｓ含量制约。矿区生物中Ｔ１、Ｈｇ、Ａｓ含量异常高,不难看出,矿区生物中Ｔ１、Ｈｇ、Ａｓ含量的高低,不仅是判别矿区污染程度的标志,也是找矿,特别是找盲矿体的标志。     

德化—尤溪地区金矿潜在资源量初步估算

德化—尤溪地区是福建省重要的金矿成矿区。通过综合成矿信息提取、筛选出与金矿成矿作用密切相关的成矿信息标志 ,应用信息量计算法、特征分析法 ,优选出金矿找矿靶区 10处 ,其中 A类 2处 ,B类 2处和 C类 6处。在优选出的找矿靶区内 ,采用一元线性回归分析法和蒙特卡洛法模拟概率分布曲线 ,分别估算出该区金矿潜在资源量分别为 91.3t和 96 .7t     

浅谈电法在福建安溪铅山矿区的找矿效果

安溪县铅山铅锌矿区地质普查阶段开展了物探工作（激电中梯剖面、激电测深）,发现了激电异常,结合矿区成矿地质条件,推断异常是由隐伏铅锌矿（化）引起,提出了进一步工作的建议,经钻探验证得以证实。该区激电异常是一个深部找矿的有效标志,电法工作为该普查区顺利转入详查阶段起了一定作用。