共查询到20条相似文献,搜索用时 546 毫秒
1.
泥石流拦砂坝坝后侵蚀坑形态和深度是泥石流冲刷基础研究的薄弱环节。通过室内水槽实验,探讨了泥石流坝后侵蚀坑的形态和不同实验控制条件下侵蚀坑深度的变化规律等。由实验观察可知,侵蚀坑纵剖面整体上呈现两端浅中间深的形态特征,其最深点的位置随水槽坡度增大向下游方向发展;侵蚀坑坑内上游坡度较下游坡度陡,对于具有相同级配的粘性砂和无粘性砂,无粘性砂的侵蚀坑坑内坡度较粘性砂的缓;侵蚀豌的最大深度受沟床纵坡、泥石流的容重、沟床组成物质的性质(特征粒径、粘性)等因素的影响较大;泥砂粘性的存在将大大削弱侵蚀的深度。 相似文献
2.
南岭东段地区是世界著名的钨多金属矿集区。近年来中国地质调查局在该区实施钨多金属矿调查评价,找到了一批具有中大型远景的与花岗岩有关的新类型钨锡多金属矿床,特别是在复式岩体中的花岗岩型新类型钨钼多金属矿床(简称"体中体"式钨钼多金属矿床)和受中、上泥盆统地层控制的层控矽卡岩型钨锡多金属矿床的发现,不仅实现了南岭东段地区找矿新突破,而且对整个南岭乃至我国华南地区钨锡多金属矿找矿具有重要指导作用。本文根据近年来南岭东段地区钨锡多金属矿找矿新成果,通过该区钨锡多金属矿床地质特征的总结,建立了南岭东段地区钨锡多金属矿成矿模式,提出了南岭东段地区今后钨锡多金属矿找矿方向应重点注意与燕山期复式花岗岩有关的"体中体"式钨钼多金属矿床和中、上泥盆统控制的层控矽卡岩型钨锡多金属矿床的寻找。 相似文献
3.
陈华北 《CT理论与应用研究》2018,27(5):627-633
声波电视是利用声波走时和振幅参数进行钻孔壁成像的一种地球物理测井系统。由于采用数字技术和配置功能完善的软件,系统具有图像分辨率高、测井速度快、可在混浊的井液中工作、数据处理和分析过程相对简单的特性,是研究岩层结构面的有效手段。在刚果(金)某铜钴矿岩体稳定性评价中,采用声波测井方法,获取岩体的优势结构面,为确定采坑边坡角、岩体抗剪强度指标提供了可靠数据。本文介绍RG声波电视测井的原理及方法,以DK02孔为例,对所揭露岩层结构面、裂隙发育信息进行分析。工程实践说明,声波井下电视在进行深部岩体的原位勘察方面具有明显优势。 相似文献
4.
5.
《中国科学:地球科学》2017,(11)
南岭及邻区分布一系列与中生代花岗岩有关的锡矿床,这些岩石可以是含角闪石黑云母花岗岩,或是(黄玉)钠长石-(铁)锂云母花岗岩,其岩石化学特征指示它们分别对应于准铝质和过铝质花岗岩.细致的矿物学研究表明它们具有完全不同的矿物学特征.准铝质含锡花岗岩的矿物学特征表现为:(1)角闪石、黑云母、条纹长石等组成特征性的造岩矿物组合:(2)标志性副矿物榍石、磁铁矿等显示其原始岩浆具有较高的氧逸度;(3)含锡矿物为锡石、黑云母、榍石等;(4)锡石的成分比较纯,微量元素含量低.过铝质含锡花岗岩的矿物学特征主要表现为:(1)铁锂云母-锂云母、钾长石、钠长石为典型造岩矿物;(2)富铝矿物黄玉是较常见的副矿物,与花岗岩铝过饱和特征相符;(3)锡石是重要的锡矿物,且富含Nb、Ta.造成两类含锡花岗岩显著矿物学差异的原因可能包括熔体的氧逸度、挥发组分和岩浆分异程度的差异.氧化型准铝质花岗岩熔体中锡以四价为主,这导致锡容易富集在含钛的造岩矿物或副矿物中,在岩浆结晶分异阶段形成富锡矿物;这些富锡矿物可成为含锡花岗岩的标志性矿物.相对还原的过铝质花岗岩熔体中锡以二价为主,不易进入造岩矿物和副矿物,常常在岩浆结晶分异阶段形成岩浆成因的锡石;因此,岩浆成因锡石成为这类花岗岩的重要成矿和找矿标志.岩浆性质和锡在两类花岗岩岩浆中地球化学行为的差异,导致形成的矿床类型有所不同.准铝质花岗岩主要形成岩体浸染型、绿泥石-石英脉型、云英岩型、矽卡岩型等矿床,而过铝质花岗岩除形成云英岩型、矽卡岩型、石英脉型等矿床外,更易形成岩体浸染型锡矿化. 相似文献
6.
7.
南岭多时代花岗岩的钨锡成矿作用 总被引:3,自引:0,他引:3
南岭成矿带以与多时代花岗岩有关的钨锡稀有金属成矿为特色,是我国19个重点成矿区带中5个重点矿产勘察地区之一,南岭花岗岩的基础研究和地质找矿实践不断取得重要进展.本文重点介绍近年来对南岭多时代花岗岩与钨锡成矿作用的主要新认识:(1)南岭地区存在加里东期、印支期和燕山期等多时代钨锡花岗岩.(2)南岭地区燕山期含锡(钨)花岗岩构成北东向分布的准铝质A型花岗岩带,延伸约350 km,暗色包体常见,为典型的磁铁矿型花岗岩.(3)燕山早期含锡花岗岩和含钨花岗岩具有不同的岩石学特征,大多含锡花岗岩以准铝质—弱过铝质(含角闪石)黑云母花岗岩为主,而含钨花岗岩则以二云母花岗岩及白云母花岗岩为主,含锡花岗岩锆石的Hf(t)集中在2~8,而含钨花岗岩中的锆石的Hf(t)集中在8~14,表明含锡花岗岩的物源中明显有地幔物质参与,而含钨花岗岩的物源则以地壳物质为主.(4)基于南岭钨、锡花岗岩的岩石学特征,研究表明榍石、磁铁矿和黑云母等常见矿物是含锡花岗岩成矿能力的有效标志,而黑钨矿等矿物可以作为含钨花岗岩的重要判别标志.本文认为,南岭复式岩体不同时代花岗岩之间的内在联系、南岭不同时代含钨锡花岗岩的成矿特征、南岭含矿长英质岩脉与岩浆演化关系、南岭花岗岩穹窿与成矿关系等应该是今后南岭花岗岩研究中需要重点关注的科学问题. 相似文献
8.
利用孔间CT成像对喀斯特岩体结构、电站坝基渗漏与稳定性研究 总被引:2,自引:0,他引:2
岩溶水电站坝基受岩体中发育的溶洞、溶蚀裂隙带及构造破碎带等岩体缺陷的控制,容易产生塌陷、渗漏,导致电站工程变形、失稳。岩溶发育与碳酸盐岩的岩体结构改变关系十分密切,因此,对水电站坝基岩体缺陷的准确诊断意义重大。本文利用孔间电磁波透视及CT成像技术,对地下隐伏碳酸盐岩岩体结构的非均匀性,溶蚀裂隙带分界面,裂隙结构体、裂隙充填物性质及几何空间形态等进行了数字描述和刻画。并结合广西某水电站坝基碳酸盐岩岩体结构的自然特性,岩体结构变化特征的实测数据,进一步分析在工程作用下应力分布状态,岩体变形破坏规律,预测和判定坝基渗漏和稳定性,进而合理制定有效处治措施。 相似文献
9.
近年来,针对秦岭造山带晚三叠世花岗岩体侵位机制的巨大争议,一些研究采用磁组构方法分析了岩体的内部组构特征及其与区域构造的关系,提出了具有重要意义的新认识.然而,目前这些研究均缺乏对岩体磁组构本质意义的分析,利用该方法约束岩体内部组构的可靠性并不十分清晰.针对这一问题,本文以秦岭造山带内具典型代表性意义的晚三叠世糜署岭花岗岩体为例,开展了该岩体的磁组构、岩石磁学、矿物形态组构和显微构造的综合研究.结果表明,糜署岭岩体的磁化率总体较低,属钛铁矿系列花岗岩.绝大部分样品的磁化率受控于顺磁性的黑云母等铁镁硅酸盐矿物,部分高磁化率样品包含了少量多畴磁铁矿等铁磁性组分的贡献,且随磁化率增大,铁磁性组分的贡献更为明显.样品的磁组构也主要是黑云母组构或由黑云母与磁铁矿的亚组构复合而成.由于样品中磁铁矿含量较低且与黑云母密切共生,磁组构与黑云母形态组构基本一致,因此,黑云母与磁铁矿的亚组构基本共轴.糜署岭岩体的磁组构本质上等同于黑云母组构,反映了黑云母等页硅酸盐矿物在岩体中的分布,可以有效的指示岩体的内部构造特征.宏观和显微构造观察还显示,糜署岭岩体的内部组构形成于岩浆侵位的晚期阶段,叠加了同岩浆期区域构造的关键信息,是从岩体构造角度开展区域构造演化的良好载体. 相似文献
10.
湘南黄沙坪铅锌钨钼多金属矿床辉钼矿的Re-Os同位素定年及其意义 总被引:23,自引:0,他引:23
通过对黄沙坪铅锌钨钼矿床六个辉钼矿样品的Re-Os同位素分析, 获得的模式年龄为150.9~156.9 Ma, 187Re-187Os 等时线年龄为(154.8 ± 1.9) Ma, MSWD=1.5; 模式年龄和等时线年龄结果集中一致, 为黄沙坪矿床提供了一个准确的形成时限. 该成矿年龄与黄沙坪花岗岩体的成岩年龄(161.6 ± 1.1) Ma基本一致. 上述数据表明, 黄沙坪花岗岩体与黄沙坪矿床, 同区域内的骑田岭花岗岩体及其相关的芙蓉锡矿田、新田岭钨矿床, 以及千里山花岗岩体与柿竹园钨锡钼铋矿床、金船塘锡铋矿床等都是燕山中期的产物. 它们均为湘南岩浆-成矿带的重要组成部分, 也是华南燕山中期大规模成矿作用在湘南地区的集中表现. 黄沙坪矿床辉钼矿样品的Re含量较低, 表明其成矿物质主要来自于地壳. 相似文献
11.
新疆阿尔泰成矿带花岗岩发育,其中很多花岗岩与成矿作用有着密切的联系,特别是400Ma左右的岩浆活动是阿尔泰地区一次重要的岩浆成矿活动,阿尔泰许多金属矿床与这一时期的岩浆构造作用有关。本次研究的出露于可可塔勒铅锌矿区的黑云母花岗岩体,其锆石LA-ICPMSU-Pb年龄为(401.8士1.5)Ma,表明可可塔勒花岗岩是阿尔泰成矿带400Ma左右发生的一次重要岩浆构造作用的产物,该黑云母花岗岩体侵入于矿区下泥盆统康布铁堡组火山岩地层中,岩体与围岩接触带附近的围岩蚀变明显,该黑云母花岗岩的侵入以及其后期的岩浆热液活动可能对区内成矿物质的活化、迁移、富集、成矿具有一定的贡献。 相似文献
12.
13.
Evidence from pseudomorphous β-quartz phenocryst for decompression of rock-forming and ore-forming processes in Shapinggou porphyry Mo deposit 总被引:1,自引:0,他引:1
The Shapinggou porphyry molybdenum(Mo) deposit, located in Jinzhai County, Anhui Province, China, is the largest in the Qinling-Dabie Mo Metallogenic Belt. The intrusive rocks in the Shapinggou Mo ore district formed in the Yanshanian can be divided into two stages based on zircon U-Pb dating and geochemical features. This study focuses on the late stage intrusions(quartz syenite and granite porphyry), which are closely genetically related to molybdenum mineralization. Petrographic observations identified two quartz polymorphs in the quartz syenite and granite porphyry, which were derived from the same magmatic sources and similar evolutionary processes. The quartzes were identified as a xenomorphic β-quartz within quartz syenite, while the quartz phenocrysts within the granite porphyry were pseudomorphous b-quartz, characterized by a hexagonal bipyramid crystallography. The pseudomorphous b-quartz phenocrysts within the granite porphyry were altered from b-quartz through phase transformation. These crystals retained b-quartz pseudomorph. Combined with titanium-inzircon thermometry, quartz phase diagrams, and granitic Q-Ab-Or-H_2O phase diagrams, it is suggested that the quartz syenite and granite porphyry were formed under similar magmatic origins, including similar depths and magmatic crystallization temperatures. However, the β-quartz within quartz syenite indicated that the crystallization pressure was greater than 0.7 GPa, while the original b-quartz within the granite porphyry was formed under pressures between 0.4 and 0.7 GPa. The groundmass of the granite porphyry which formed after the phenocryst indicated a crystallizing pressure below 0.05 GPa. This indicates that the granite porphyry was formed under repetitive and rapid decompression. The decompression was significant as it caused the exsolution of the ore-forming fluids, and boiling and material precipitation during the magmatic-fluid process. The volumetric difference during the phase transformation from b-quartz to β-quartz caused extensive fracturing on the granite porphyry body and the wall rocks. As the main ore-transmitting and ore-depositing structures, these fractures benefit the hydrothermal alteration and stockwork-disseminated mineralization of the porphyry deposit. It is considered that the pseudomorphous β-quartz phenocrysts of the porphyritic body are metallogenic indicators within the porphyry deposits. The pseudomorphous β-quartzes therefore provide evidence for the formation of the porphyry deposit within a decompression tectonic setting. 相似文献
14.
A preliminary study of rare-metal mineralization in the Himalayan leucogranite belts,South Tibet 总被引:8,自引:0,他引:8
RuCheng Wang FuYuan Wu Lei Xie XiaoChi Liu JiaMin Wang Lei Yang Wen Lai Chen Liu 《中国科学:地球科学(英文版)》2017,60(9):1655-1663
The Himalayan leucogranite occurs as two extensive (>1000 km) E-W trending belts on the Tibetan Plateau with the unique features. The leucogranite comprised biotite granite, two-mica/muscovite granite, tourmaline granite and garnet granite, which have been identified in previous studies, as well as albite granite and granitic pegmatite that were identified in this investigation. Fifteen leucogranite plutons were studied and 12 were found to contain rare-metal bearing minerals such as beryl (the representative of Be mineralization), columbite-group minerals, tapiolite, pyrochlore-microlite, fergusonite, Nb-Ta rutile (the representative of Nb-Ta mineralization), and cassiterite (the representative of Sn mineralization) mainly based on the field trip, microscope observation and microprobe analysis. The preliminary result shows that the Himalayan leucogranite is commonly related to the rare-metal mineralization and warrants future investigation. Further exploration and intensive research work is important in determining the rare-metal resource potential of this area. 相似文献
15.
Vratislav Blecha Miroslav Štemprok Tomáš Fischer 《Studia Geophysica et Geodaetica》2009,53(3):295-314
We examined the shape of the Late Variscan Karlovy Vary granite massif located south of the Ohre/Eger graben in Northern Bohemia
by reinterpretation of existing gravity data on two perpendicular profiles. The granite body of about 360 km2 total outcrop size has the elongation ratio 0.35 with the major axis trending NE-SW. The SW part of the body was crossed
in the nineties by the seismic profile 9HR which localized the bottom of granites in a depth of about 10 km. We used this
value as a reference datum in our gravity profiles. We positioned one of our profiles along the seismic profile 9HR and the
other one perpendicularly, i.e. parallel with the elongation of the outcrop surface. We interpret the shape of the main granite
body in the vicinity of Karlovy Vary as a continuous desk whose floor is horizontal (or subhorizontal) and varies along its
whole extension about a depth of 10 km. This thickness is approximately identical with that of the Saxothuringian nappes imaged
by seismic reflection. The near surface upper contact of the granite body is mildly inclined, and outward dipping. It changes
to steep sides or inward inclined contacts in deeper levels. The Lesny-Lysina (Kynžvart) massif is a separate granite body
about 324 km thick, not continuously connected with the main Karlovy Vary massif. The gravity curve suggests that granites
often enclose in their endocontact large blocks of country metasediments or metabasites the existence of which is partly evidenced
by their outcrops outside the line of the profile. The granite body is found density-homogenous. Minor density differences
between granite varieties are caused mainly by more intense hydrothermal alterations in younger suite granites. We interpret
vertical conduits for the ascent of granitic magmas to be parallel to the Jáchymov-Gera and Ohře (Eger) lineaments or the
Mariánské Lázně fault zone as indicated by the elongation of some outcrops. However, they are not clearly imaged from the
gravity data. The effect of the depression of the Sokolov basin along the faults parallel with the Ohře (Eger) lineament is
shallow and it is not indicated by any change in the floor depth of the granite body. Comparison of the seismicity distribution
suggests that the hypocenters occur mostly outside of the granite bodies or near their contact with the country rock. 相似文献
16.
WenDi Chen WenLan Zhang RuCheng Wang ZhuYin Chu Rong Xiao Di Zhang XuDong Che 《中国科学:地球科学(英文版)》2016,59(11):2121-2141
The polymetallic Dushiling W-Cu deposit is a large, altered, skarn-type deposit, located in the northeastern part of the Miao'ershan-Yuechengling pluton, China. Two types of granite have been identified in the deposit: a medium-grained porphyritic biotite granite, and a medium- to fine-grained biotite granite. Both are spatially and temporally related to ore bodies, suggesting they may be the source of mineralization in the deposit. A medium- to fine-grained porphyritic biotite granite is exposed at the surface in the region of mineralization. U-Pb dating of zircons yielded magmatic ages of 423 Ma for the medium-grained porphyritic biotite granite and 421 Ma for the medium- to fine-grained porphyritic biotite granite, while a younger age(217 Ma) obtained for surface samples indicates later diagenesis. Thus, magmatism occurred during the Caledonian and Indosinian, respectively. The petrological and geochemical characteristics of the two Caledonian granites show that both are calc-alkaline and peraluminous.They are moderately enriched in Cs, Rb, U, and REE, and strongly depleted in Sr,Ba,P,and Ti; they show similar REE behavior,including negative Eu anomalies. These geochemical similarities suggest that the two granites were derived from the same source,although they were emplaced during different stages of the evolution of the magma. Furthermore, the granites are associated with mineralization, suggesting they were the source of mineralization in the Dushiling W-Cu deposit. Sm-Nd ages of scheelite from the Dushiling W-Cu deposit indicate that metallogenesis occurred at 417±35 Ma, while the two types of titanite, intergrown with scheelite, yield U-Pb ages of 423–425 Ma(in altered granite sample) and 218 Ma(in skarn sample). These ages place the main mineralization event in the late Caledonian, and later magmatic-hydrothermal activity occurred in the Indosinian. The ages obtained for the Dushiling W-Cu deposit in the western Nanling Range, northern Yuechengling, together with the occurrence and ages of the Niutangjie W deposit in southern Yuechengling, provide insight into the process of ore concentration during the Caledonian and Indosinian. 相似文献
17.
福建紫金山及其外围地区分布的浅成-超浅成斑岩体与成矿关切密切.紫金山外围东留花岗斑岩体位于福建省武平县境内,花岗斑岩体内外接触带普遍发育强烈的矿化蚀变带.通过对东留花岗斑岩体进行野外地质调查及全岩地球化学分析,结果表明东留花岗斑岩体具有过铝质A型花岗岩的特征:富硅、钾、铁,贫钙、钠、镁,A/CNK值大于1.1,分异指数高,富集HFSE、Ga、LREE、Y(Ce),亏损Ba、Sr、P、Ti,具有强烈的铕负异常.东留花岗斑岩体作为矿化蚀变岩石的母岩,可能为矿化作用提供热源和成矿物质,具有寻找锡多金属矿的前景. 相似文献
18.
广东南山花岗岩体位于陂头复式岩体西端,锆石的SHRIMP U-Pb年龄为158.1±1.8Ma,是燕山早期岩浆活动的产物。岩石化学特征显示岩体以高硅、富碱、贫Ca和Mg以及高TFeO/MgO、低CaO/Na2O为特征。其K2O/Na2O〉1,A/NK=7.8~11.92,A/CNK=1.33~1.68,属过铝质碱性岩石。在稀土和微量元素组成上,岩石富含稀土元素(除明显的负Eu异常,δEu=0.09~0.16)以及Zr、Y、Th、U、Nb等高场强元素,贫Ba、Sr、Ti等,高10000x Ga/Al(比值大于2.6)。在Zr、Nb、Ce、Y对10000×Ga/Al以及TFeO/MgO-SiO2等A型花岗岩多种判别图上,投影点主要落在A型花岗岩区,而与高分异的I、S型花岗岩明显不同。这些特征均指示,南山岩体具有铝质A型花岗岩的特点。通过Y-Nb-3Ga和Y-Nb-Ce构造环境判别图解将其进一步划分为A2型花岗岩,代表其形成于拉张的构造背景之下。本文在此研究基础上,认为南山花岗质岩浆可能形成于相对挤压的中侏罗世。而在晚侏罗世早期相对拉张的作用下,岩石圈减薄,软流圈地幔上涌,地壳的泥质岩和少量砂质岩受到幔源流体富集后发生部分熔融后上侵形成铝质A型花岗岩,且有较强的结晶分异作用。 相似文献
19.
赣东南大墩地区铜金多金属矿化主要产于晚三叠世黑云正长花岗岩与南华系接触带附近,受南华系浅变质岩地层岩性及断裂破碎带控制明显。本文以该区1:5万矿产远景调查项目大墩靶区成功找矿为例,基于M APG IS软件系统,对勘查区进行了化探数据处理、化探异常剖析、元素聚类分析、元素定量统计分析、剥蚀程度定量评价等综合定量评价。工作成果表明,勘查区显示铜金为主要矿种、银铅锌为伴生矿种的中低温热液型矿床特征,矿化类型主要为石英脉型,矿床可达小型-中型规模。在风化剥蚀面显露出金铜等近矿地球化学原生晕指示元素。根据地球化学勘查综合定量指标分析,认定大墩地区为面积约15 km2具有中型铜金多金属矿产地勘查前景的找矿靶区。应用以上成果,该区已取得明显找矿效果。 相似文献
20.
Skarn-type tungsten mineralization associated with the Caledonian (Silurian) Niutangjie granite,northern Guangxi,China 总被引:1,自引:0,他引:1
YANG Zhen WANG RuCheng ZHANG WenLan CHU ZhuYin CHEN Jun ZHU JinChu ZHANG RongQing 《中国科学:地球科学(英文版)》2014,57(7):1551-1566
The Niutangjie tungsten deposit is a bedded skarn-type scheelite deposit and is located at the junction between Ziyuan and Xingan counties in the north of Guangxi,China.The deposit is genetically related to a fine-grained two-mica granite within the orefield.Zircon LA-ICP-MS U-Pb dating of the granite yielded a Silurian(Caledonian)age of 421.8±2.4 Ma,which is contemporaneous with the adjacent Yuechengling batholith.Mineralization within the skarn is associated with a quartz,garnet,and diopside gangue,and scheelite is present in a number of different mineral assemblages,such as quartz-scheelite and quartz-sulfide-scheelite;these assemblages correspond to oxide and sulfide stages of mineralization.Sm-Nd isotope analysis of scheelite yielded an isochron age of 421±24 Ma.Although the uncertainty on this date is high,this age suggests that the scheelite mineralization formed during the Late Caledonian,at a similar time to the emplacement of the Niutangjie granite.Zircons within the granite have?Hf(t)values and Hf two-stage model ages of?6.5 to?11.6,and 1.79 to 2.11 Ga,respectively.These data suggest that the magma that formed the granite was derived from Mesoproterozoic crustal materials.Scheelite?Nd(t)values range from?13.06 to?13.26,also indicative of derivation from ancient crustal materials.Recent research has identified Caledonian magmatism in the western Nanling Range,indicating that this magmatism may be the source of contemporaneous tungsten mineralization. 相似文献