成矿元素富集机制的量子地球化学研究——以攀枝花钒钛磁铁矿矿床为例

攀枝花钒钛磁铁矿矿床为富集钒、钛、铁等过渡元素的典型岩浆矿床。文章运用量子地球化学的理论和方法研究该矿床的元素组合、分配及变化特征 ,并用量子力学理论的abini tioHartree Fock分子轨道法对钛磁铁矿和钛铁矿晶体结构进行了模拟计算。结果表明 :源于地幔的原始岩浆富集成矿元素 ;在其结晶过程中 ,V ,Ti,Fe等成矿元素再次富集于钛磁铁矿和钛铁矿中而形成矿床 ,这种再富集受晶体结构择位能控制。     

甘肃德勒诺尔铁矿地质特征及找矿方向

德勒诺尔铁矿是近年新发现的大型磁铁矿床,位于祁连山造山带中祁连陆块。铁矿体赋存于蓟县系泥硅质板岩中,矿体呈层状产出,与围岩整合接触,矿石主要为变余结构、条带状构造,矿石矿物为磁铁矿,具有沉积变质特征。该矿床的发现对在中祁连地区寻找同类型矿床具有一定的指导意义,同时也填补了该区铁矿勘查找矿空白。     

新疆塔什库尔干地区磁铁矿床地质特征与找矿方向

新疆塔什库尔干地区的磁铁矿床是河南省地质调查院2003年在实施1/25万克克吐鲁克幅、塔什库尔干幅、莎车幅区域地质调查过程中发现的,也是迄今为止新疆南部最大的磁铁矿床。该矿床产出的大地构造位置独特,成矿地质条件良好,找矿潜力很大。本文根据最新找矿勘查资料,通过对矿区地质、矿体及矿石组构特征等方面的综合分析研究,认为新疆...     

Environmental Geochemistry of Mining Activities in Panzhihua Region, Southwestern China

INTRODUCTIONMining activlties have significant envi ronmenta1 inll)ac'l ssuch as visual intrusions, dust, noise, blasting, trafflc and h}'drology (Kwolek, l999; Ripley et al., l996 ). The l)rot'csst'sof mineral extraction, processing, smelting and refinlng;1rt'never approximate to the environmental neutrality, but tht' affected areas can be ameliorated (KwoIek, l999; Klukanov;1;llltlRapant, 1999). The regions, where mining activities are I,r('sent or continuous for a long tlme, are pote…     

层状侵入体韵律层理形成过程的定量模拟——以四川攀枝花层状岩体为例

层状侵入体的韵律层理是一种特殊的岩石构造,长期以来其成因倍受关注,成因假说很多。本文在综合这些观点关于岩浆物理,化学性质的研究,尤其是在岩浆房地对流特征研究成果的基础上,提出了新的成因解释,认为固化带前锋处矿物的结晶,熔浆组分的扩散及固化带前锋本身的推进等３个因素的相互耦合是形成韵律层理的主要机制,这个过程是发生在一定过冷却条件下的,在这种定性认识基础上,笔者提出了旨在对韵律层理形成过程进行模拟计     

Apatite Composition of Representative Magnetite‐series and Ilmenite‐series Granitoids in Japan

Apatites of representative magnetite‐series and ilmenite‐series granitoids were studied in the Japanese Islands. Concentrations of the volatile components F, Cl and SO₃ are differently distributed in apatites of these granitoid series. Apatites are always fluoroapatite. They have weakly higher F content in the ilmenite series than in the magnetite series. In contrast, Cl and SO₃, are significantly concentrated in apatites of the magnetite series compared to the ilmenite series. These characteristics reflect the original concentrations of these components in the host granitic magmas. A high fO₂ seems most important for the S‐concentration as sulfate in apatite of the magnetite series. REE and Y are only erratically high in the studied apatites.     

天然磁铁矿化学改性及其在水体除砷中的应用

铁氧化物及其复合氧化物(如菱铁矿、水铁矿)的表面电荷高、比表面积大,在特定条件下对亚砷酸盐和砷酸盐有较强的结合能力和亲和性,以铁氧化物作为吸附剂处理高砷水已经成为研究热点之一。天然磁铁矿的主要成分为Fe_3O_4,但其本身活性较弱,直接应用于处理高砷水的除砷率低。本文对天然磁铁矿采取酸化、碱化、不同温度灼烧、不同灼烧时间等简易的方法进行改性,达到有效去除水中砷的目的。实验结果表明:经0.5 mol/L盐酸浸泡、150℃灼烧10 min的改性磁铁矿分别处理As(Ⅲ)溶液和As(Ⅴ)溶液时,As(Ⅴ)去除率达98%,吸附能力显著增强,达到预期目标;溶液中As(Ⅲ)浓度从1000μg/L下降到250μg/L,去除率达75%,即As吸附能力明显优于未改性的天然磁铁矿,与其他改性铁矿除砷能力相近,而改性方法更加简便、易行。本文研究的改性天然磁铁矿吸附剂为控制高砷水的砷含量提供了一种切实可用的吸附材料。     

攀枝花钒钛磁铁矿区土壤重金属地球化学特征及污染评价

为了解攀枝花钒钛磁铁矿区土壤重金属的特征及污染程度,采集了矿区表层土壤样品和两个土壤剖面,用多种分析方法有针对性地分析了Cu、Pb、Zn、Ti、V、Co、Ni、As、Cd、Cr、Hg、Mn十二种元素。在分析分布特征基础上,对重金属进行了污染物负荷指数评价,结果发现:1)攀枝花钒钛磁铁矿矿区表层土壤大部分属于中等污染,少数属于强污染,个别达到了极强污染;2)Co、V、Cu、Cd、Ti几种元素的最高污染系数大,Zn、Mn、Ni、Cr四种元素的最高污染系数次之,Hg、Pb两种元素的最高污染系数较小,As的最高污染系数最小;3)从各区域的污染物负荷指数来看,排土场周围和朱矿采矿场下游附近污染程度较大,远离矿区以及矿区上游污染较小。     

磁铁矿与黄铁矿双向交代研究及意义

在华北盆地南缘早古生代碳酸盐岩中,发现了包括交代假象和交代残余枯内的一系列足以支持磁铁矿与的矿之间发生双向交代作用的确凿矿物学证据,甚至在同一个磁性矿物颗粒内,还辨认出方向完全相反而且是先后发生的２种交代现象。磁铁矿（铁磁性矿物）和黄铁矿（顺磁性矿物）之间有双向交代会直接干扰古地磁数据,并影响以此为基础而开展的地块运动分析和古地理的重建。     

Magnetite Dyke in Precambrian Banded Iron Formation,Singhbhum Craton,India: Mineralogical and Chemical Characteristics

Banded iron formation (BIF) of the Gorumahisani–Sulaipat–Badampahar (GSB) belt in Singhbhum Craton, India, consists predominantly of magnetite. This BIF is intruded by a magnetite dyke. The magnetite dyke is massive and compact with minor sulphide minerals while the host banded magnetite ore, a component of the BIF, shows thin lamination. The magnetite ore of the dyke is fine to medium grained and exhibits interlocking texture with sharp grain boundaries, which is different from the banded magnetite that is medium to coarse grained and show irregular martitised and goethitised grain boundaries. Relics of Fe–Ca–Mn–Mg‐carbonate and iron silicates (grunerite and cummingtonite) are observed in the banded magnetite. The intrusive magnetite is distinctly different in minor, trace and REE geochemistry from the banded magnetite. The banded magnetite contains higher amounts of Si, Al, Mn, Ca, Mg, Sc, Ga, Nb, Zr, Hf, Co, Rb and Cu. In contrast, the massive magnetite is enriched in Cr, Zn, V, Ni, Sr, Pb, Y, Ta, Cs and U with higher abundance of HREE. In the chondrite normalized plot, the massive magnetite shows a slight positive Eu anomaly while the banded ore does not show any Eu anomaly. Field disposition, morphology, mineralogy and chemistry show that the intrusive magnetite dyke is of igneous origin, while magnetite in BIF formed from a carbonate protolith through the process of sedimentation.