共查询到19条相似文献,搜索用时 218 毫秒
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华北克拉通在中奥陶世至晚石炭世经历了强烈的风化和喀斯特化作用,并在晚石炭世形成大规模喀斯特型铝土矿,但是其物质来源及成矿过程目前仍存争议。本文选取华北南缘仁村大型喀斯特型铝土矿床,在矿床地质剖析基础上,对两个钻孔岩心进行矿物学、地球化学、碳-氧同位素分析,剖析了成矿物质来源和成矿环境条件,总结了铝土矿形成过程。仁村铝土矿含矿岩系赋存于奥陶系灰岩风化面之上的石炭系本溪组中,含矿岩系自下而上包括铁质粘土岩、铝土矿和粘土岩。X衍射和扫描电镜-能谱分析显示铁质粘土岩主要矿物为菱铁矿和伊利石,铝土矿主要矿物为硬水铝石、黄铁矿、菱铁矿、锐钛矿、伊利石和高岭石,而粘土岩主要矿物为高岭石和勃姆石。铁质粘土岩元素组成以SiO2、FeO、Al2O3为主,铝土矿以Al2O3、SiO2、FeO、TiO2为主,而粘土岩主要为SiO2。微量元素Zr、Hf、Nb、Ta、Th和U等在含矿岩系呈现整体富集,稀土元素主要在铝土矿层底部富集。硬水铝石... 相似文献
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华北克拉通铝(粘)土矿是我国喀斯特型铝(粘)土矿的典型代表,前人针对其物质组成、物质来源、成因机制开展了大量研究,但对其成矿后生改造尚未开展系统研究。本文对嵩箕地区铝(粘)土矿进行了研究,野外剖面显示,含矿岩系由底到顶包括风化壳层、铁质粘土岩、粘土质铝土矿、粘土岩、块状铝土矿层。通过矿物空间穿插关系、X射线衍射、扫描电镜、电子探针分析显示,铝(粘)土矿成矿期主要形成矿物包括硬水铝石、锐钛矿、伊利石、绿泥石等矿物。黄钾铁矾、赤铁矿、针铁矿、高岭石代表了后期改造矿物。矿物垂相分布指示赤铁矿和针铁矿随着深度变浅逐渐减少,硬水铝石在粘土质铝土矿层显著富集,黄钾铁矾广泛分布于铁质粘土岩层和风化壳顶部,穿插于粘土矿物或围绕在硬水铝石周围,以脉状、颗粒状分布,且与伊利石含量呈消长关系。同时,元素地球化学垂相分带显著,大离子亲石元素(Rb、Cs、Ba、Sr)与K2O以及高场强元素(Zr、Hf、Nb、Ta、U、Th)与TiO2显示正相关。铝土矿层中Al2O3明显富集,而SiO2则明显亏损。底板灰... 相似文献
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通过对峨眉山玄武岩古风化壳进行野外调查、取样和分析测试工作,认为: ①贵州西部广泛出露峨眉山玄武岩,晚二叠世古气候温润潮湿,利于峨眉山玄武岩风化形成含Fe、Ti的黏土矿物和铝质黏土矿物的古风化壳,该风化壳受古地理环境和峨眉山玄武岩控制。②相对玄武岩而言,铝质黏土岩主量元素含量特征表现为富TiO2、Al2O3,轻度亏损SiO2,明显亏损TFe,其他主量元素大量流失; 铁质黏土岩主量元素含量特征表现为富TFe、TiO2, 轻度富Al2O3,但相对于铝质黏土岩,TiO2的富集程度偏低,SiO2亏损明显,其他元素亦大量流失。③由于晚二叠世频繁的海侵作用,水位较高的区域,风化壳下部处于较还原的条件下,Fe被还原成易溶的二价状态或在有机质的作用下迁出风化壳,而Ti由于存在形式较为稳定,继续保存在黏土矿物中,与Fe发生分异; 局部水位较浅的氧化环境及重力分异作用下,黏土矿物与铁矿物由于比重差异而分选开来,形成Fe与Al、Ti的分异,并伴随铁矿、钛矿和铝土矿的富集。该富集规律的发现对寻找该区铁、钛和铝土矿有一定的理论指导意义。 相似文献
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首次报道了扬子板块北缘镇巴地区中-晚三叠世界线黏土岩锂的超常富集,黏土岩产于关岭组(T2g)/须家河组(T3x)平行不整合界面,为古风化壳沉积物,Li2O品位0.08%~0.11%,最高达0.22%,超过了该类型矿产的边界品位(0.06%),界线黏土岩的岩石学特征、矿物组成及岩石成因亟待查明。本文通过XRD分析、TIMA分析以及详细的地球化学研究,查明了界线黏土岩的矿物组成,探讨了黏土岩形成的沉积环境及物质来源,提出了不整合面黏土岩类关键金属矿产的综合找矿方向。研究表明,镇巴地区T2/T3界线黏土岩主要由石英、伊利石、高岭石组成,并含有极少量绿泥石、蒙脱石和铝绿泥石。主量元素(SiO2、Al2O3、TFe2O3、TiO2)特征表明界线黏土岩属于铝土质泥岩,黏土岩CIA值(化学蚀变指数)为85~93,ICV值(成分变异指数)为0... 相似文献
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荥巩煤田大峪沟矿段深部铝土矿床是最近找矿突破发现的一个大型铝土矿床。该铝土矿床成矿时代为早二叠世,成矿物源主要为古陆铝硅酸岩风化物,少量为中奥陶统马家沟组碳酸盐岩风化产物,成矿环境为潮坪-沼泽环境,由长期的沉积间断、特定的岩相古地理环境、构造变形和表生风化作用共同控制着矿床的形成;上石炭统本溪组是铝土矿形成的含矿岩系;海湾泻湖相沉积环境是铝土矿床形成的有利条件;下古生界奥陶系、寒武系古岩溶侵蚀面是铝土矿形成的有利场所,古岩溶侵蚀面洼地及漏斗是铝土矿的定位空间。大峪沟矿段铝土矿床成因模式属于"古陆风化+碎屑和化学沉积";成矿机制为机械和化学分异。含矿岩系底部铁质风化壳/铁质黏土岩为碳酸盐岩风化形成,铝(黏)土矿来源于铝硅酸盐岩。大峪沟深部铝土矿床的发现为河南省寻找深部铝土矿床指明了方向。 相似文献
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喀斯特型铝土矿中硬水铝石的成因机制对准确认识该矿床的成因至关重要,也是业界长期争论的焦点。早期普遍认为风化作用阶段形成的三水铝石经历后期压实变质作用脱水形成硬水铝石,然而近期大量研究显示自然界铝土矿中硬水铝石多为地表喀斯特型环境下结晶形成。华北晚石炭世发育大规模硬水铝石型喀斯特铝土矿,本文选取华北北部艾雨头大型铝土矿床为研究对象,在翔实的矿床地质研究基础上,借助X射线粉末衍射(XRD)、扫描电镜-能谱分析(SEM-EDS)及激光剥蚀电感耦合等离子体质谱(LA-ICP-MS)技术,探索硬水铝石的地表结晶条件和铝土矿的形成过程。艾雨头铝土矿含矿岩系剖面自下而上依次包括铁质粘土岩、铝土矿和粘土岩,其中:铁质粘土岩矿物组成主要为伊利石、高岭石、针铁矿、赤铁矿、硬水铝石和锐钛矿;铝土矿主要为硬水铝石、高岭石、赤铁矿、针铁矿和锐钛矿;粘土岩为高岭石、针铁矿、赤铁矿和锐钛矿。艾雨头喀斯特铝土矿顶底板岩石未发生变质作用,而且原位分析显示硬水铝石中含有较高含量的Si、Fe、Ti、Cr、V、Pb等元素,指示硬水铝石为表生沉淀成因。矿石中发现硬水铝石与赤铁矿和针铁矿密切共生,表明硬水铝石可在氧化条件下形成(... 相似文献
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河南省煤系沉积型硫铁矿资源较丰富,主要分布于豫中西部和豫北地区的10个矿田范围内。该类型硫铁矿产于石炭纪海侵初期,属泻湖沉积相黄铁矿床,成矿物质为古风化壳和铝土质岩系两种来源。矿层赋存于石炭系本溪组沉积建造底部的铝铁质粘土岩建造中,在氧化带内形成山西式铁矿,原生带保留为硫铁矿。 相似文献
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在分析沉积铝土矿含矿岩系的基础上,从岩性组合与矿石矿物组成和赋存形态及微量元素分析入手,通过镜下观察与沉积环境反应敏感元素特征分析认为含矿岩系自下而上岩性由泥岩(铁铝质泥岩)→铁铝岩→铝土矿→炭质泥岩(煤)→灰岩,具有“铁-铝-泥-灰”的特征,沉积环境由陆相到海相的转变;沉积铝土矿中硬水铝石主要为风化成因,成矿物质来源有原地残积亦有异地沉积,底板铁质铝土质泥岩为强烈红土化产物,顶板铝土质泥灰岩为还原环境下的产物;Ga、Sr、Ba微量元素与Sr/Ba、Rb/K、V/Zr、Zr/Cu比值分析表明原生铝土矿和底板铁质铝土质泥岩沉积环境为陆相,顶板铝土质泥灰岩更多表现为海相沉积。 相似文献
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为研究鄂尔多斯盆地东缘石炭-二叠纪古气候特征及其与成煤作用之间的关系,利用X射线衍射(XRD)及扫描电子显微镜(SEM)对研究区石炭-二叠系泥质岩中的黏土矿物组成及其环境意义进行分析。结果显示,区内泥质岩中黏土矿物主要以高岭石、伊利石/蒙皂石混层矿物为主,次为伊利石和绿泥石。黏土矿物的垂向组合特征表现为:高岭石在桥头剖面、扒楼沟剖面和成家庄剖面山西组,桥头剖面太原组底部、成家庄剖面太原组上部及本溪组中部含量偏高。伊利石在各个剖面的山西组中含量较高,绿泥石仅在山西组中上部、太原组下部含量较高。扫描电镜下黏土矿物晶体形态规则,未见明显磨蚀痕迹,伊利石结晶度为0.42°△2θ~0.63°△2θ,平均值为0.47°△2θ,结晶度较好,混层比相对质量分数平均值25.1%,表现为自生黏土矿物。根据自生黏土矿物的习性指出研究区古气候总体表现为温暖潮湿、间或在太原组早期和山西组中-晚期伴有短周期干冷气候。古气候与沉积环境两者相互印证指示聚煤作用强度的变化过程,是控制研究区内聚煤作用的关键因素。 相似文献
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Liu Xue-Fei Wang Qing-Fei Ma Yao Li Zhong-Ming Zhao Li-Hua Zhou Zhi-Hui Liu Bai-Shun Ma Xin-Li 《古地理学报》1999,22(5):965-976
During the Middle Ordovician to Late Carboniferous period,the North China Craton(NCC)was exposed and experienced prolonged weathering that resulted in the formation of large-scale iron,clay and bauxite deposits. The source of ore-forming material has always been a research focus,in particular,whether the sources of the iron ore and the Fe-bearing clay at the bottom of Benxi Formation are the same as the upper bauxite and clay deposit is still unclear. In this study,the Da'an bauxite and clay deposit at the southern margin of the NCC was chosen to carry out a detailed analysis of the micro-region mineral composition and elemental geochemical characteristics for further exploring the sources of iron,bauxite and clay deposits. The composition of the ore-bearing rocks in the Da'an bauxite deposit from the bottom to top includes Fe-bearing clay(locally iron ore),bauxite,and bauxitic clay;locally,in karstic uplift,bauxitic clay layer is directly overlying on the Fe-bearing clay. The Fe-bearing clay is dominated by siderite,pyrite,and illite in the karstic depression,and hematite,illite,and kaolinite in the uplift. Bauxite is mainly composed of diaspore,illite,and anatase,while bauxitic clay is mainly composed of illite. Mineral microanalysis revealed the development of large amounts of moissanite and small amounts of natural silica,silicalite,and chromite at the bottom of bauxitic clay layer. Regional comparison and correlation reveal that the ophiolite in the Shangdan suture zone and Erlangping Group in the North Qinling orogenic belt(NQOB)likely provides source materials for bauxite and clay deposits. The obvious differences in immobile element ratios (e.g., Zr/TiO2,Hf/TiO2,Nb/TiO2,Ta/TiO2)between the bottom Fe-bearing clay layer and the upper bauxite and clay layer in Da'an deposit,revealing that they are from different sources. The bottom Fe-bearing clay and iron ore layers are the products of in-situ weathering of underlying carbonates,while the top bauxite and clay are allochthonous. The regional uplift of the NQOB during the Late Carboniferous period provided important ore-forming materials for the formation of the NCC bauxite and clay deposits. 相似文献
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桂西地区铝土矿为典型喀斯特型,包括二叠系沉积型和第四系堆积型两亚类。堆积型铝土矿是沉积型铝土矿经抬升、破碎、风化,最后堆积于喀斯特洼地中形成。以平果教美铝土矿为研究对象,探索堆积型铝土矿形成过程中矿物的变化与元素迁移。沉积型矿石的矿物组成包括硬水铝石、鲕绿泥石、锐钛矿及少量针铁矿、金红石和高岭石;堆积型矿石的矿物组成主要为硬水铝石、锐钛矿、高岭石及少量三水铝石和鲕绿泥石。转化过程中堆积型矿石中的硬水铝石含量明显增加,鲕绿泥石含量明显减少。沉积型铝土矿的主要化学组成为Al2O3、SiO2、FeO和TiO2;堆积型为Al2O3、SiO2、TiO2和Fe2O3。两类矿石中元素Zr 、Ba、Nb、V含量均较高,稀土总量变化大,富集轻稀土。质量平衡计算表明堆积型铝土矿形成过程中Al、Ba、Sr、Y等元素增加,而Si、Fe、Ti、Nb、V、Ce等元素减少,其余元素变化不明显。 相似文献
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云南文山县天生桥地区铝土矿是典型的沉积型铝土矿,矿体赋存于上二叠统龙潭组,其下伏地层为上石炭统灰岩或与峨眉山大火成岩省有关的玄武岩。矿石以泥晶结构为主,含少量粒屑结构与鲕粒结构;矿石的结构特征表明风化物质可能经过短距离的搬运。常量元素分析结果显示铝土矿石中Al2O3分别与Fe2O3 和TiO2具有较好的负相关关系。在铝土矿矿化过程中,微量元素Zr、Hf、Nb、Ta和Bi相对于Li、Rb、Sr、Ba不断富集。元素Zr、Hf、Nb、Ta 分别与TiO2显示较高的相关性。运用稳定元素相关性(如Zr-Hf、Nb-Ta)、lgNi和lgCr二元图解以及稀土元素配分模式等方法探讨矿床成矿物质来源,研究结果表明玄武岩为铝土矿的形成提供了主要的物质来源,下伏碳酸盐岩可能也提供了少量的物质来源。 相似文献
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重庆南川-武隆铝土矿属于渝南-黔北铝土矿成矿带,为喀斯特型铝土矿床。经显微镜、X射线粉晶衍射、矿物自动分析仪(MLA)、扫面电子显微镜等方法对该矿床矿物学的研究,发现组成铝土矿的主要矿物为一水硬铝石、高岭石、绿泥石,次要矿物为伊利石、一水软铝石、三水铝石、鲕绿泥石、菱铁矿、赤铁矿、针铁矿、黄铁矿、锐钛矿、金红石、磷灰石、石英、锆石、方解石、长石及稀土矿物等。矿石组构及矿物组合表明形成铝土矿的沉积/成岩环境为接近于潜流的环境。矿石结构和锆石形态指示成矿物质经过了短距离的搬运。地球化学研究结果显示,组成铝土矿的主要化学成分为Al2O3、TFeO、SiO2和TiO2,铝土矿化过程中REE、Zr、Hf、Nb、Ta、Th、Sc、Li和Ga发生富集。形成铝土矿的母岩物质主要来自下伏页岩的风化作用,灰岩和酸性火山岩对铝土矿的形成也有一定的贡献。结合稳定同位素资料,认为铝土矿的形成可能与生物作用有关。 相似文献
15.
Karstic bauxite deposits are widespread in Central Guizhou Province, SW China, and high-grade ores are frequently sandwiched with overlying coal and underlying iron-rich layers and form a special “coal–bauxite–iron” structure. The Lindai deposit, which is one of the most representative karstic bauxite deposits in Central Guizhou Province, was selected as a case study. Based on textural features and iron abundances, bauxite ores in the Lindai deposit are divided into three types of ores, i.e., clastic, compact, and high-iron. The bauxite ores primarily comprise diaspore, boehmite, kaolinite, illite, and hematite with minor quartz, smectite, pyrite, zircon, rutile, anatase, and feldspar. The Al2O3 (53–76.8 wt.%) is the main chemical contents of the bauxite ore samples in the Lindai district, followed by SiO2, Fe2O3, TiO2, CaO, MgO, S, and P etc. Our geological data on the Lindai deposit indicated that the ore-bearing rock series and its underlying stratum have similar rare earth elements distribution pattern and similar Y/Ho, Zr/Hf, and Eu/Eu1 values; additionally, all ore-bearing rock samples are rich in MgO (range from 0.16 wt.% to 0.68 wt.%), and the plots of the dolomites and laterites lie almost on or close to the weathering line fit by the Al-bearing rocks in Zr vs. Hf and Nb vs. Ta diagrams; suggesting that the underlying Middle Cambrian Shilengshui Formation dolomite is the parent rock of bauxite resources in the Lindai district.Simulated weathering experiments on the modern laterite from the Shilengshui Formation dolomite in the Lindai bauxite deposit show that hydrogeological conditions are important for karstic bauxite formation: Si is most likely to migrate, its migration rate is several magnitudes higher than those of Al and Fe under natural conditions; the reducing inorganic acid condition is the most conducive to Al enrichment and Si removal; Fe does not migrate easily in groundwater, Al enrichment and Fe removal can occur only in acidic and reducing conditions with the presence of organic matter.The geological and experimental studies show that “coal–bauxite–iron” structure in Lindai deposit is formed under certain hydrogeological conditions, i.e., since lateritic bauxite or Al-rich laterite deposited upon the semi-closed karst depressions, Si can be continuously removed out under neutral/acidic groundwater conditions; the coal/carbonaceous rock overlying the bauxitic materials were easily oxidized to produce acidic (H2S, H2SO4, etc.) and reductant groundwater with organic materials that percolated downward, resulting in enrichment of Al in underlying bauxite; it also reduced Fe3+ to its easily migrating form Fe2+, moving downward to near the basal carbonate culminated in precipitating of ferruginous (FeS2, FeCO3, etc.) strata of the “coal–bauxite–iron” structure. Thus, the bauxitic materials experienced Al enrichment and Si and Fe removal under above certain hydrogeological conditions forming the high-quality bauxite. 相似文献
16.
研究区矿体产于三叠系中窝组底部油页岩与下伏中三叠统北衙组灰岩、白云质灰岩不整合面上,矿体呈透镜状、漏斗状,受岩浆侵入、岩溶发育影响,矿层厚度不稳定.主要矿石矿物有一水硬铝石和三水硬铝石,呈鲕状、致密豆状、松散状(土状).该矿床的Al/Si比值等岩石化学数据总体反映出Al2O3与SiO2、TiO2含量均成正相关关系.矿石样品∑REE富集,δCe显示正异常,δEu负异常明显.微量元素研究显示出沉积成因特征和成矿物源的多源性,铝土矿矿石结构构造、沉积特点及生物组成反映其形成环境主要为海相沉积环境. 相似文献
17.
The bauxites deposits of Kachchh area in Gujarat are investigated to characterize them based on mineralogical and petrographic studies. The major bauxitic mineral in these occurrences is gibbsite, with minor concentration of boehmite and diaspore. Apart from the bauxitic minerals, the other associate minerals are kaolin, calcite, alunite and the iron ore minerals such as hematite and goethite and titanium rich anatase. The iron ore minerals (hematite and goethite) are 10-50microns in size and are disseminated throughout the oolitic and pisolitic bauxitic minerals. At places the goethite exhibits colloform texture. The preservation of basaltic texture in some of the samples indicate that the insitu nature of these bauxites, which are formed by the alteration of calcic plagioclase from the parent basalt. Although, the basalt occurs as the main parent rock for these bauxites, the presence of calcite in some of the samples represent the possibility of having a limestone parent rock at least in some of the bauxite occurrences. 相似文献
18.
Bauxite deposits, traditionally the main source of aluminum, have been recently targeted for their remarkable contents in rare earth elements (REE). With ∑REE (lanthanoids + Sc + Y) concentrations systematically higher than ∼1400 ppm (av. = 1530 ppm), the Las Mercedes karstic bauxites in the Dominican Republic rank as one of the REE-richest deposits of its style.The bauxitic ore in the Las Mercedes deposit is mostly unlithified and has a homogeneous-massive lithostructure, with only local cross-stratification and graded bedding. The dominant arenaceous and round-grained texture is composed of bauxite particles and subordinate ooids, pisoids and carbonate clasts. Mineralogically, the bauxite ore is composed mostly of gibbsite and lesser amounts of kaolinite, hematite, boehmite, anatase, goethite, chromian spinel and zircon. Identified REE-minerals include cerianite and monazite-Ce, whose composition accounts for the steady enrichment in light- relative to medium- and heavy-REE of the studied bauxites.Considering the paleo-geomorphology of the study area, we propose that bauxites in the Las Mercedes deposit are the product of the erosion and deposition of lithified bauxites located at higher elevations in the Bahoruco ranges. Based on the available data, we suggest a mixed lithological source for the bauxite deposits at the district scale: bedrock carbonates and an igneous source of likely mafic composition. 相似文献
19.
Xuefei Liu Qingfei Wang Jun Deng Qizuan Zhang Silei Sun Jianyin Meng 《Journal of Geochemical Exploration》2010
The Dajia Salento-type bauxite deposit in western Guangxi is hosted within the Quaternary ferrallitic soil profile, and it formed via breaking up, weathering and oxidizing of Permian bauxite orebodies occurring as a semi-continuous layer in the upper Permian. Mineralogical analyses reveal that diaspore, hematite and kaolinite are the major minerals in bauxite ores with small amounts of anatase, chamosite, gibbsite, goethite, illite, zircon, quartz and pyrite. The ore texture and mineral assemblage reveal that the depositional/diagenetic environment of the Dajia bauxite was much close to phreatic environment. Both the ore texture and the morphology of zircon grains also indicate that most of the bauxitic soils were transported a short distance. Diaspore is suggested to be non-metamorphic in origin and mainly formed in a reducing condition of diagenetic environment, while kaolinite is the product of the in situ epigenetic replacement of alumina in diaspore by dissolved silica. Geochemical analyses indicate that Al2O3, Fe2O3, SiO2 and TiO2 are the main components of the bauxite ores and trace elements such as Zr, Hf, Nb, Ta, Th and U were enriched during the bauxitization process. Simultaneously, Zr vs. Hf and Nb vs. Ta show a high correlation. Geochemical indices such as Zr/Hf, Nb/Ta and Eu/Eu* (among others) denote that the magmatic rocks related to the Emeishan plume in western Guangxi and the carbonates in the underlying Maokou Formation provided the main sources of material for the bauxite ores. 相似文献