武汉黄棕壤铁锰氧化物胶膜的矿物学特征研究     

李岩  李艳  鲁安怀  王浩然  丁聪  杨晓雪 《岩石矿物学杂志》2016,35(2):355-362

铁锰氧化物矿物胶膜是我国黄棕壤中重要的铁锰元素富集载体,选取我国华中地区典型的铁锰氧化物矿物胶膜样品,采用电感耦合等离子体原子发射光谱(ICP-AES)、偏光显微镜(POM)、环境扫描电子显微镜(ESEM)、能谱仪(EDX)、高分辨透射电子显微镜(HRTEM)、高能量X射线粉末衍射(XRD)等研究方法,对原位和分离处理后的黄棕壤铁锰胶膜进行了详细的矿物学表征.结果表明,黄棕壤铁锰氧化物矿物胶膜由表及里,由外到内依次呈现富锰条带、富铁锰条带、富铁条带、富锰铁条带、富铁条带,并且锰铁元素含量之比不规则降低,其所含铁锰氧化物矿物主要为锰钡矿、针铁矿、水钠锰矿、六方水锰矿、水羟锰矿,粒度为纳米级,形貌多样.  相似文献   

纳米比亚奥乔宗蒂约巴地区铁锰矿地质特征     

《四川地质学报》2022,(2):214-217

纳米比亚奥乔宗蒂约巴地区铁锰矿,位于晚元古宙达马拉造山带内陆支带的东部中央南带。铁锰矿体呈层状或似层状产出于达马拉系第二岩性段石英岩地层中,矿石多呈黑色、灰黑色,中—细粒变晶结构,块状、条带状构造。矿石矿物主要有硬锰矿、针铁矿、磁铁矿、少量赤铁矿,脉石矿物主要为石英、斜长石、石膏和少量石榴子石、黑云母、锆石等。对比研究表明纳米比亚奥乔宗蒂约巴地区铁锰矿与奥乔松杜地区锰矿床的成因模式及成矿作用方式相似,铁、锰的沉积作用与海进-海退旋回有关。  相似文献   

纳米比亚奥乔宗蒂约巴地区铁锰矿地质特征     

《四川地质学报》2017,(2)

纳米比亚奥乔宗蒂约巴地区铁锰矿,位于晚元古宙达马拉造山带内陆支带的东部中央南带。铁锰矿体呈层状或似层状产出于达马拉系第二岩性段石英岩地层中,矿石多呈黑色、灰黑色,中—细粒变晶结构,块状、条带状构造。矿石矿物主要有硬锰矿、针铁矿、磁铁矿、少量赤铁矿,脉石矿物主要为石英、斜长石、石膏和少量石榴子石、黑云母、锆石等。对比研究表明纳米比亚奥乔宗蒂约巴地区铁锰矿与奥乔松杜地区锰矿床的成因模式及成矿作用方式相似,铁、锰的沉积作用与海进-海退旋回有关。  相似文献   

中国干旱与湿润地区岩石漆光谱学特征研究     

《矿物岩石地球化学通报》2017,(2)

为探究岩石漆矿物组成在空间上的变化规律,采集了中国干旱、半干旱及湿润地区岩石漆样品,制作了岩石漆纵切片观察其形貌特征,对其进行了拉曼光谱与红外光谱分析。光谱学研究表明,所有岩石漆样品均检测出574~594cm~(-1)、622~645cm~(-1)的拉曼峰位和428cm~(-1)、466~468cm~(-1)、513cm~(-1)的红外峰位,表明水钠锰矿是岩石漆中普遍存在的锰氧化物矿物。干旱与部分半干旱地区岩石漆检测出290~291cm~(-1)、405~409cm~(-1)、610cm~(-1)的拉曼峰位,半干旱地区岩石漆检测出217cm~(-1)、275~279cm~(-1)、393~395cm~(-1)的拉曼峰位,表明干旱地区岩石漆内铁氧化物以赤铁矿形式产出,半干旱地区富含针铁矿与赤铁矿。湿润地区岩石漆未检测到铁氧化物的谱峰信号。说明气候差异与生物活动可能是岩石漆形貌与矿物组成差异性的原因。  相似文献   

广西下雷氧化锰矿床矿石特征及成因分析   总被引：3，自引：0，他引：3  

颜代蓉  李建屯  胡明安  郎银生 《地质科技情报》2006,25(3):61-67

广西下雷锰矿床由原生碳酸锰矿和次生氧化锰矿组成.其中氧化锰矿石的矿物主要有软锰矿、钡锰矿、隐钾锰矿、锂锰矿、钙锰矿、褐锰矿、黑镁铁锰矿等,与之伴生的其他表生矿物主要有赤铁矿、针铁矿、石英、高岭石和蒙脱石.矿石结构主要有交代、隐晶和细晶结构,矿石构造主要有葡萄状、块状、晶洞状、网脉状和条带状构造.与原生碳酸锰矿相比,次生氧化锰矿的矿石品位明显提高,平均在44%以上;Co、Ni、Cu、Zn等微量元素也有一定程度的富集.化学分析和单矿物成分分析结果表明,氧化锰矿石和锰氧化物中的w(Mn)/w(TFe)值均较高(一般大于10),说明风化强度大,铁、锰分离显著.与铁的氧化物相比,锰氧化物中Si和P等有害杂质元素的含量要低得多,因此,铁、锰分离是形成优质锰矿的重要条件.氧化锰矿的次生富集及其在空间上的分布受古气候、构造、含锰地层及地形地貌等多种因素的影响和控制.  相似文献   

粤北大宝山酸性矿山废水中梯田状沉积物的次生矿物研究     

曹丽娜  苟习颖  陈炳辉 《矿物岩石地球化学通报》2019,(3):616-622

粤北大宝山酸性矿山废水(AMD)中形成了呈独特梯田状构造的沉积物,其中的次生矿物可以吸持AMD中的重金属离子,对减少矿山环境的重金属污染有重要意义。本文采集了大宝山AMD中呈梯田状构造中的沉积物,利用多种手段分析了其主要矿物组成以及主要次生矿物的表面形貌特征,探究梯田状沉积物的成因。结果表明,梯田状沉积物的次生矿物以针铁矿、施威特曼石、黄钾铁矾为主,含少量石膏、斜方钙沸石等。针铁矿呈针状、球刺状集合体;施威特曼石呈海胆状、鳞片状,粒度为微米级,海胆状施威特曼石与球刺状针铁矿共生;黄钾铁矾呈不规则的球粒状、片状,与施威特曼石共生。研究表明微生物作用可能是形成铁质梯田状构造的关键因素。  相似文献   

石英砂表面铁胶膜的合成——pH和铁摩尔比[Fe(Ⅱ)]/[Fe(Ⅲ)]的影响     

《矿物学报》2013,(3)

本研究以石英砂为载体,在其颗粒表面合成铁胶膜,并探讨合成体系不同初始pH(5,6,7)及铁摩尔比(R=[Fe(Ⅱ)]/[Fe(Ⅲ)])等条件对铁胶膜形成的影响。研究表明,在初始pH相同的情况下,当R为0时,铁胶膜的矿物成分为弱晶质的水铁矿;R为0.01时的矿物成分为赤铁矿;R分别为0.02、0.04、0.06和0.10时为针铁矿,且随着R增加,X射线衍射(XRD)图谱中针铁矿的峰强度逐渐增加,扫描电镜(SEM)可观察到针铁矿晶形逐渐变大,且在R为0.10时晶体形貌最大;当R为0.50和体系只加入Fe(Ⅱ)时合成的铁矿物主要为针铁矿与磁铁矿的混合物。当R一定时,随着合成体系初始pH的增加,胶膜中针铁矿的XRD峰强度逐渐增强,在初始pH为7时其峰最强,且晶形逐渐变大。  相似文献   

广西钦州_防城地区次生氧化锰矿床矿物学和地球化学研究及矿床成因意义   总被引：1，自引：0，他引：1       下载免费PDF全文

郎银生  李建威  邓晓东  张伟  颜代蓉  陈蕾 《矿床地质》2007,26(5):527-540

钦州-防城锰矿带是中国次生氧化锰矿的重要产地之一,其含锰岩系为上泥盆统榴江组含锰硅质岩。锰矿床主要赋存在以腐岩带为主的风化壳中,矿石的主要矿物为软锰矿、锰钡矿、隐钾锰矿、锂硬锰矿、钙锰矿等,与之伴生的其他表生矿物有赤铁矿、针铁矿、石英、高岭石和其他粘土矿物。矿石多呈葡萄状、块状、网脉状构造。与原生含锰硅质岩相比,次生氧化锰矿矿石的品位明显提高,Mn含量平均达到42.6%。矿石化学分析和单矿物电子探针成分分析表明,氧化锰矿石中还普遍出现Co、Ni、Cu、Zn等元素的富集,其平均含量分别为0.05%(最高0.40%)、0.09%(最高0.53%)、0.08%(最高0.53%)和1%(最高2.2%);它们主要以类质同象和吸附的形式赋存在锂硬锰矿及隐钾锰矿中。氧化锰矿石和锰氧化物的Mn/Fe比值均较高,一般大于6～10,说明该区化学风化强烈,铁、锰分离显著,有利于形成高品位的优质锰矿。有害杂质元素P主要存在于针铁矿等铁的氧化物中。氧化锰矿的形成和空间分布受气候、构造、含锰岩系及地形地貌等多种因素的影响和控制。  相似文献   

广东大宝山铁龙AMD中赭色沉积物的含铁次生矿物研究          下载免费PDF全文

邹琦  陈莹  刘奇缘  程银鹰  陈炳辉 《高校地质学报》2017,23(3):442

以广东大宝山铁龙酸性矿山废水(AMD)为研究对象,采集了7个采样点的赭色沉积物样品。利用X射线荧光光谱(XRF)、傅里叶变换红外光谱(FTIR)、X射线粉晶衍射(XRD)和场发射扫描电镜/能谱分析(FESEM/EDS),对AMD中赭色沉积物的矿物相及形貌进行鉴定。现场测定采样点水体物理化学参数(pH/Eh),探讨不同物理化学条件对含铁次生矿物相的影响。结果表明,大宝山铁龙AMD中赭色沉积物的含铁次生矿物主要有施威特曼石、黄钾铁矾、针铁矿、水铁矿等,此外沉积物中还含有七水铁矾、叶绿矾、四水白铁矾、针绿矾、纤铁矾、锡铁山石及羟铝矾等可溶性硫酸盐。施威特曼石具有带骨针棒状、海胆状形貌,针铁矿常呈针状及肾状集合体产出,黄钾铁矾呈六方板状,施威特曼石常可与黄钾铁矾或者针铁矿共生。赭色含铁次生矿物能在AMD较大范围的pH条件下存在,但倾向于Eh高的环境。当pH值增大时,施威特曼石有转变为针铁矿的趋势,并且针铁矿能保存施威特曼石的形貌特征。  相似文献   

K型水钠锰矿阳离子交换作用及产物高温相变研究     

《矿物学报》2010,(Z1)

<正>水钠锰矿是一种常见的层状结构锰氧化物,角顶相连的锰氧八面体呈层状分布,层间为金属离子和水分子。由于层间阳离子易与其它金属离子进行离子交换,因而水钠锰矿在环境领域可用来吸附水或土壤中重金属离子。在矿物学领  相似文献   

Models of rock varnish formation constrained by high resolution transmission electron microscopy   总被引：3，自引：0，他引：3  

D. KRINSLEY 《Sedimentology》1998,45(4):711-725

Nanometre-scale transmission electron microscope imagery of manganiferous rock varnishes from Death Valley, California, Peru, Antarctica, and Hawaii confirms prior infrared mineralogy studies. The building blocks of rock varnish are clay minerals that are cemented to the rock by oxyhydroxides of manganese and iron. Rock varnish is layered on the scale of nanometres, with the basic structure defined by the subparallel alignment of detrital clay minerals. Although only a few examples of bacteria were found, possible cell-wall encrustations are ubiquitous and aligned with the clay minerals. Mn–Fe oxides appear to be mobilized from bacterial casts and then reprecipitate on clay minerals that weather into monolayers. These observations have implications for varnish dating and palaeoenvironmental techniques: K–Ar and uranium-series dating of rock-varnish oxides can only yield minimum ages; however, this small spatial scale of mobilization would not alter the signal from micron-scale microchemical laminations.  相似文献   

长江中下游铁帽型金矿床矿石的物质组成研究          下载免费PDF全文

邵洁涟  李立平 《地质找矿论丛》1988,(1):32-46

本文通过江西武山吴家和安徽铜陵代家冲两个铁帽型金矿床的矿石矿物组成特点的研究,为长江中、下游进一步寻找和评价铁帽型金矿床提供必要的依据。  相似文献   

河南省庙咀钒矿地质特征及成矿浅析          下载免费PDF全文

张振生  胡呈祥  张文昭 《地质找矿论丛》2014,29(2):217-222

庙咀钒矿是近年查明的一个中型钒矿床。钒矿床地处荆紫关—师岗复向斜南翼,矿体赋存于下寒武统水沟口组底部硅质岩和泥岩中,严格受控于地层及岩性。矿石类型主要为黏土岩型及条带状硅质岩型两种,钒主要以离子吸附和类质同象赋存于黏土矿物中。矿床成因为滨海-浅海沉积型层控矿床。  相似文献   

Biogenic wad in Iron Ore Group of rocks of Bonai-Keonjhar belt,Orissa     

B. K. Mohapatra  S. Mishra  P. P. Singh 《Journal of the Geological Society of India》2012,80(1):89-95

Outcrop of wad, about 3–5 m thick, associated with low to medium-grade manganese ore deposits in Iron Ore Group (IOG), is present in large quantum in Bonai-Keonjhar belt, Orissa. It is often inter-bedded with volcanic ash layers. Wad is powdery, fine grained, black to blackish-brown in colour, very soft, readily soils the fingers and its hardness on the Mohs’ hardness scale is 1–3. The wad zone is capped by a thin lateritic zone and overlies manganese ore beds of variable thickness in Dalki, Guruda and Dubna mines. Wad constitutes two mineral phases, viz. manganese oxides (δ-MnO₂, manganite, romanechite with minor pyrolusite) and iron oxides (goethite/limonite and hematite) with minor clay and free quartz. Mixed limonite-clay and cryptomelane-limonite are commonly observed. Under microscope the ore appears oolitic, pisolitic, elipsoidal to globular in shape having small detritus of quartz, pyrolusite / romanechite and hematite at the core. The ore contains around 23% Mn and 28% Fe with ～7% of combined alumina and silica. Wad might have developed in a swampy region due to slow chemical precipitation of Fe-Mn-Co enriched fluid, nucleating over quartz/hematite grains. Influence of a marine environment is indicated from δ-MnO₂ phase. Remnants of some microfossils, like algal filament, bacteria, foraminifera and diatomite are observed in wad sample under SEM. These microorganisms might have been responsible for the oxidation of dissolved Mn²⁺ and Fe²⁺ precipitates. These findings suggest biochemogenic origin of wad in Bonai-Keonjhar belt of Orissa.  相似文献   

ASD field hyperspectral measurements for discrimination of the ferruginous rocks and the iron ore types at El Gedida-Ghorabi area,Bahariya Oasis,Western Desert,Egypt     

SM Salem 《Arabian Journal of Geosciences》2017,10(7):166

The ironstone succession at El Gedida-Ghorabi-Naser area of El Bahariya depression is subdivided into lagoonal manganiferous mud and fossiliferous ironstone consisting mainly of hematite and goethite-hydrogoethite. The application of the ASD field spectroradiometer measurements (spectral range) in the ASTER data led to the interpretation of the presence of ferruginous units as quartzitic sandstone, gluconitic sandy clay, and pink marly limestone. The existing iron ore minerals in the iron ore localities were also classified into high Mn hematite, low Mn hematite, goethite, hydrogoethite as well as low- and high-grade Hematite and Barite. Quartz, feldspars, rutile, and clay minerals (e.g., kaolinite and illite) are mainly associated with the iron ore. Accessory minerals of manganese, e.g., psilomelane and pyrolusite, were also present. The Barite mineral is recorded as a common mineral association with the iron ore deposits at El Gedida and Ghorabi localities. The stratigraphical units investigated in the study area include the oldest gravely clayey sandstones of the Bahariya Formation overlain by the fossiliferous and oolitic limestones of the El-Hamra, Qazzun, and Naqb Formations. Quartztic sandstones and clayey sandstones of the Radwan Formation and youngest Quaternary sediments of sandy-clayey materials were often found as intermittent cover and overburden in unconformity surfaces over the iron ore bands.  相似文献   

Mineralogy, chemistry and genesis of Nishikhal manganese ores of South Orissa, India     

B. C. Acharya  D. S. Rao  R. K. Sahoo 《Mineralium Deposita》1997,32(1):79-93

Manganese ores of Nishikhal occur as distinctly conformable bands in the khondalite suite of rocks belonging to the Precambrian Eastern Ghats complex of south Orissa, India. Manganese minerals recorded are cryptomelane, romanechite, pyrolusite, with minor amounts of jacobsite, hausmannite, braunite, lithiophorite, birnessite and pyrophanite. Goethite, graphite, hematite and magnetite are the other opaque minerals and quartz, orthoclase, garnet, kaolinite, apatite, collophane, fibrolite, zircon, biotite and muscovite are the gangue minerals associated with these ores. The mineral chemistry of some of the phases, as well as the modes of association of phosphorous in these ores have been established. The occurrence of well-defined bands of manganese ore; co-folding of manganese ore bands and associated metasedimentary country rocks; the min-eral assemblage of spessartite-sillimanite-braunite-jacobsite-hausmannite; the geochemical association of Mn-Ba-Co-Ni-Zn together with the Si versus Al and Na versus Mg plots of the manganese ores suggest that the Nishikhal deposit is a metamorphosed Precambrian lacustrine deposit. Continental weathering appears to be the source for manganese and iron. After deposition and probable diagenesis, the manganese-rich sediments were metamorphosed along with conformable psammitic and pelitic sediments under granulite facies conditions, and subsequently underwent supergene enrichment to produce the present deposit. Received: 14 March 1995 / Accepted: 11 April 1996  相似文献   

黔西北筲箕湾铅锌矿床地质特征及找矿标志   总被引：1，自引：0，他引：1  

张信伦  杨晓飞  曾道国 《矿产与地质》2009,23(3):219-224

通过对矿区的矿床地质特征、物化探异常特征与见矿效果的验证、矿体地质特征、围岩蚀变的分析,筲箕湾铅锌矿床属构造、地层岩性复合控矿,矿石按其自然类型可分为氧化矿和硫化矿两种,矿石矿物以白铅矿、铅钒、菱锌矿、异极矿、水锌矿、褐铁矿、针铁矿及粘土矿物为主,并总结了该矿床的找矿标志。  相似文献   

某钼-铀矿床矿化特征及成因类型探讨     

古杭衡  周巧生  蔡蕴华 《铀矿地质》1985,(1)

矿床产于中元古代地层中。矿区内酸性脉岩发育,常密集成带,矿床受穿过脉岩带的构造破碎带控制。矿化岩石主要为构造碎裂岩和角砾岩,其原岩为长英质脉岩、变石英砂岩、变安山岩、板岩及粉砂岩等。矿化以裂隙充填为主,对围岩化学成分的选择性不大。围岩蚀变有:绢云母化、硅化、钾长石化、黑云母化、黄铁矿化、赤铁矿化及水合多水高岭石化等。铀矿物主要为沥青铀矿、铀黑、铀石,其次有钛铀矿、水铀矾,含铀矿物有锐钛矿、金红石、赤铁矿、水合多水高岭石和褐铁矿等;其它金属矿物主要有辉钼矿、黄铁矿、方铅矿和黄铜矿。矿石具脉状、角砾状、块状和浸染状构造,沥青铀矿具胶状结构。矿床中钼的储量远大于铀,铀矿体产于钼矿体之中或其边部。通过室内、外研究,可以认为本矿床为与中酸性小侵入体有关的中-低温热液成因的钼-铀型复合矿床。  相似文献   

印度次大陆中央构造带沉积-变质型锰矿的矿物学和地球化学   总被引：2，自引：0，他引：2       下载免费PDF全文

杜小伟  杨晓勇  杨钟堂  L.G.Gwalani 《地质科学》2009,44(1):103-117

对印度中央构造带sauaar带锰矿及其围岩的31个样品进行了显微镜仔细的观察和鉴定,并分析了其主量元素、微量元素和稀土元素的地球化学特征,发现该带的锰矿主要是软锰矿和硬锰矿,锰矿主要富集在锰榴石英岩内.含锰岩系样品具非常高的Mn/Fe比值,说明热液运输和成矿作用期间锰和铁的强烈分异;MnO/TiO₂为67.98-1417.52,说明有大量陆源物质经风化、搬运加入并混合沉积而成.用太古界平均澳大利亚页岩（PAAS）标准化后,稀土元素含量中δEu,δCe都有明显的正异常,说明该带锰矿床是在较强氧化海洋环境和有大量陆源物质加入的条件下沉积,并经过热液的变质交代作用而成的沉积一变质型锰矿床.该沉积-变质型锰矿的发现和研究对我国南方扬子克拉通中元古代浅变质岩系的锰矿寻找具有一定的借鉴意义.  相似文献