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1.
根据衍射峰具有的不同分布特点推导出了14个伊利石结晶度Kbler指数,Weaver指数和Weber指数关系式中常数项C1-C14的数值,提出了PearsonVII分布中形态参数μ与C5,C6,C11,C12的4个定量方程。由此,14个伊利石结晶度指数关系式可直接用于实际计算。根据阿尔卑斯复理石伊利石形态特征Sc=0.731,由这些关系式进行近变质带上下界线的转换得出与Kbler指数0.42~0.25。△2θ界线对应的Weaver指数和Weber指数的界线值分别为5.8~17.6和300~179。讨论了在自然干燥状态下直接进行伊蒙混层鉴定的基本原理。 相似文献
2.
根据衍射峰具有的不同分布特点推导出了14个伊利石结晶度Kübler指数,Weaver指数和Weber指数关系式中常数项C1-C14的数值,提出了PearsonⅦ分布中形态参数μ与C5,C6,C11,C12的4个定量方程.由此,14个伊利石结晶度指数关系式可直接用于实际计算.根据阿尔卑斯复理石伊利石形态特征Sc=0.731,由这些关系式进行近变质带上下界线的转换得出与Kübler指数0.42~0.25°△2θ界线对应的Weaver指数和Weber指数的界线值分别为5.8~17.6和300~179.讨论了在自然干燥状态下直接进行伊蒙混层鉴定的基本原理. 相似文献
3.
就像用"砝码"标定"称"来测量物质质量一样,伊利石结晶度的测量也需要这样的"砝码"标定它的测量工具——衍射仪,从而能够进行伊利石结晶度的测量和对比。这个砝码就是伊利石结晶度标样或称伊利石结晶度国际标样。第2届Kübler-Frey国际研讨会伊利石结晶度圆桌会议就伊利石结晶度标样和近变质带的确定的问题进行了深入的讨论。会议一致认为,用伊利石结晶度标样校正X射线衍射仪是极为重要和必要的,没有进行标样校正的伊利石结晶度数据将被拒绝发表,经过伊利石结晶度国际标样校正后的伊利石结晶度数据才可用于近变质带的划分和国际对比。本文就伊利石结晶度测量的有关衍射仪类型与差别,衍射仪系统,测量条件,样品的影响和国际标样对仪器的校正等问题进行了分析研究。结果表明不同型号仪器,同型号仪器不同测量条件与状态,样品的不同制备方法都将影响伊利石结晶度Kübler指数的测量。指出只有使用国际标样才可校正测量的伊利石结晶度Kübler指数,从而达到消除偏差准确划分近变质带的标准和进行国际对比的目的。 相似文献
4.
伊利石结晶度Kübler,Weaver和Weber指数关系式常数的确定与应用 总被引:1,自引:0,他引:1
根据衍射峰具有的不同分布特点推导出了14个伊利石结晶度Kübler指数,Weaver指数和Weber指数关系式中常数项C1-C14的数值,提出了PearsonⅦ分布中形态参数μ与C5,C6,C11,C12的4个定量方程。由此,14个伊利石结晶度指数关系式可直接用于实际计算。根据阿尔卑斯复理石伊利石形态特征Sc=0.731,由这些关系式进行近变质带上下界线的转换得出与Kübler指数0.42~0.25。△2θ界线对应的Weaver指数和Weber指数的界线值分别为5.8~17.6和300~179。讨论了在自然干燥状态下直接进行伊蒙混层鉴定的基本原理。 相似文献
5.
由伊利石结晶度研究桂西右江地区区域极低级变质作用 总被引:10,自引:0,他引:10
运用伊利石结晶度Kübler指数将桂西右江地区下三叠统罗楼群和中三叠统百逢组下段划归为浅层变质带(K.I△2θ°为0.22~0.25);将中三叠统百逢组上段和河口组划归为近变质带,中三叠统百逢组上段为高级近变质带(K.I△2θ°为0.26~0.33);中三叠统上部河口组为低级近变质带(K.I△2θ°为0.38~0.40),不排除局部为成岩带的可能.地层柱自下向上,伊利石结晶度Kübler指数由小变大,变质程度由高变低,而且,变质作用级别与岩层在地层柱中位置协调以及变质带边界与地层界线趋于一致,证明为区域埋藏极低级变质作用.凌云明山金矿区剖面矿体和百逢组各层段伊利石结晶度Kübler指数为0.42~0.50,属成岩带,且没有明显时空变化规律. 相似文献
6.
湘北杨家坪中新元古宇和下古生界的近变质作用与成岩作用 总被引:1,自引:1,他引:0
运用伊利石结晶度、K云母晶格常数b0、应变值τ、颗粒大小分布与矿物组合分析等低温变质指示数据对湘北杨家坪剖面中晚元古宇和下古生界的近变质作用和成岩作用进行了研究。Kisch国际标样用于校正伊利石结晶度的测定。中晚元古宇伊利石结晶度Kübler指数范围为:0.21~0.24°Δ2θ,而下古生界为0.28~0.67°Δ2θ。表明近变质作用影响了中晚元古宇和部分下古生界。按照Kisch国际标样的成岩/变质界限(0.21~0.38°Δ2θ,CuKα),将剖面划分为北部近变质带和中南部成岩带。由绿泥石化学成分地质温度计估计近变质峰期温度约为260℃。K云母晶格常数b0值变化范围0.9000~0.9045nm,平均为0.9017nm,表明近变质作用处于中压-中低压力范围。近变质带伊利石(主要是中晚元古宇)的多型为2M1型,而成岩带伊利石(主要是下古生界)的多型为2M1+1M混合类型。平均对数粒度与对数方差之积(GLR)称为对数总成熟效应具有不同的两组分布特征即近变质作用区(GLR1.88)与成岩作用区(GLR1.88),这是一个新的发现。后变质作用的构造应力不仅可产生断层,而且可引起矿物的应变,从而导致衍射峰的宽化,使得近变质带伊利石结晶度值次生变大到成岩值范畴。与剖面南部地区(长沙-澧陵-浏阳,黄土店-仙溪,沅古坪)比较,杨家坪剖面中晚元古宇和下古生界经历了中压-中低压近变质作用和成岩作用的影响。这一结果与多数前人认为的"元古宇板溪群处于绿片岩相或亚绿片岩相或低绿片岩相而震旦到下古生界为沉积盖层"的观点不同。 相似文献
7.
青藏高原可可西里地区三叠系巴彦喀拉山群低级-极低级变质作用 总被引:1,自引:0,他引:1
针对青藏高原可可西里的三叠系巴彦喀拉山群低级-极低级变质岩,利用X射线粉晶衍射分析确定了其矿物的共生组合、伊利石的结晶度Kubler指数(K)和b0值,并根据伊利石结晶度K和b0值对其区域变质作用的温压条件、分带、变质相进行了详细研究,得出了工作区5个不同岩性组合带的变质作用特征:昆仑山脉带属中压浅变质-近变质带,具葡萄石-绿纤石相和绿片岩相;不冻泉-库赛湖带属中压浅变质带,具绿片岩相;楚玛尔河带属中压近变质带,具葡萄石-绿纤石相;直达日旧带属中压浅变质带,具绿片岩相;五道梁带属中压近变质带,具葡萄石-绿纤石相. 相似文献
8.
本文运用伊利石结晶度、绿泥石结晶度、云母b0值和绿泥石地质温度计研究了梵净山前寒武系甚低级变质作用。结果表明经Kisch伊利石结晶度标样校正的伊利石结晶度Kübler指数为0.20~0.99°Δ2θ,绿泥石结晶度árkai指数为0.22~0.63°Δ2θ。由此阐明梵净山前寒武系经历了成岩作用到浅变质作用的影响,迄今依然保留了成岩带、近变质带和浅变质带的岩石记录。成岩岩石具有伊蒙混层特征成岩指示矿物,浅变质带具有钠云母特征变质指示矿物。钾云母(伊利石)b0值范围为:0.9000~0.9045nm;平均0.9018nm,b0值累积频率曲线分布介于典型中压—中低压系列之间,估算的压力为366MPa。峰期变质温度为293~364℃,平均342℃,古变质温压梯度为27℃/km。近变质带界线穿越地层和梵净山背斜轴线,表明甚低级变质作用为成岩-构造运动同期或后期构造增厚引起下部和底部岩石随温压的升高而产生的。 相似文献
9.
在开展“青海省河南县托叶玛地区I47E007023、I47E008023、I47E009023、1I47E009024四幅1:5万区域地质矿产调查”时,为验证该地区三叠系变质情况,针对三叠系中泥岩(页岩)的伊利石结晶度做了分析测试。30件样品的实验结果表明: 北部宗务隆—泽库地层分区三叠系泥岩(页岩)伊利石Kübler结晶度指数为0.312~0.537,晶胞参数b0为0.898 0~0.903 2 nm,判断其变质温度小于350 ℃,具葡萄石-绿纤石和沸石相; 南部西倾山地层分区三叠系泥岩(页岩)的伊利石Kübler结晶度指数为0.21~0.318,b0为0.898 1~0.901 4 nm,变质温度主要分布在200~350 ℃,局部>350 ℃,具葡萄石-绿纤石和绿片岩相。研究认为青海省河南县地区区域变质程度较低,为极低级变质作用或者未发生区域变质作用,且南部西倾山地层分区的变质程度略高于北部宗务隆—泽库地层分区变质程度。这一变质相带研究结论与前人认为的“区域低温动力变质作用及低绿片岩相变质带”不一致,变质程度相对更低。该研究证实了在青海省河南县地区三叠系地层中不存在大面积区域变质作用,仅存在极低级区域变质作用。 相似文献
10.
应用国际标样对伊利石结晶度测定值的校正及其意义 总被引:1,自引:0,他引:1
伊利石的结晶度(IC),又称Kbler指数(K.I.),是指粘土矿物伊利石10×10-8cmXRD峰的半高宽。作为一个变质程度的指标,结晶度广泛用于研究高级成岩—极低级变质—低级变质作用的演变过程,随着变质程度的提高,伊利石结晶度逐渐增大。根据Kbler的建议,近变质带(极低级变质带)上、下边界的伊利石结晶度分别为0.42(°Δ2θ)和0.25(°Δ2θ)。然而,测定伊利石结晶度时,由于缺少国际标样,且各实验室间的样品制备、仪器条件、测试方法也不相同,因而导致获得的数据有较大差别,缺少可比性;因此,使用国际标样对数据进行校正,使各实验室获得的数据都能直接地进行对比,是非常必要的。利用X射线衍射方法测定了由L.N.Warr提供的5个伊利石结晶度的国际标样(其中,4个为岩石碎屑样品,采自英格兰西南部的极低级变质带;1个为单矿物样品,采自印度的花岗岩),获得了校正方程,ICCIS=0.977IC测定值+0.0336(°Δ2θ),R2=0.9835。在实验室内对213件采自国内的样品进行测定,测试条件与国际标样的测试条件相同,利用此方程对测得的伊利石结晶度数值进行校正,证实本实验室对伊利石结晶度的测定具有较高的可信度和国际可比性。 相似文献
11.
TANG Yan SANG Longkang YUAN Yanming YU Jishun ZHANG Yunpeng QI Xianmao YANG Yunlong 《《地质学报》英文版》2012,86(1):96-105
X-ray diffraction methods for estimating the metamorphic grade of diagenetic, anchizone and epizone in metapelites are reviewed and applied to samples from a 7000?m+ borehole in western China and surface samples from the surrounding Zoigê area. Kübler’s illite crystallinity (IC) measurements provide more consistent results than calculated values of percentage of illite in the I/S mixed layers and percentage of I/S mixed layers. Down-borehole IC values display a typical burial metamorphic relationship between stratigraphic level and IC. A method for preparing very low grade metamorphic maps is described, and isograds plotted on a regional geological map at selected values of IC, delineating a high temperature diagenetic zone, an anchizone, and an epizone. The map shows that IC values are controlled by stratigraphic level in the north of the study area (i.e. burial metamorphism), and proximity to an igneous intrusive body in the south (i.e. contact metamorphism). 相似文献
12.
右江盆地三叠纪槽盆相浊流沉积岩系遭受过区域极低级变质作用。依据地质观察和伊利石结晶度、绿泥石-云母堆垛集合体、标志性粘土矿物及白云母(伊利石)b0参数测定资料,阐述了泥质岩石的成岩变质作用经浅层(近)变质作用到浅变质作用的转换特征。变质温度区间为150-350℃,低压类型,具高地温梯度(40-43℃/km).变质级及亚带总体与地层时代及岩层在地层柱中的位置有耦合关系,而与区域变形强度无关。最后指出区域极低级变质作用是印支-燕山构造旋回早期及区域变形前的地质事件,属于地壳伸展构造背景下右江边缘型盆地内部的埋藏型变质作用。 相似文献
13.
内蒙古东北地区上古生界伊利石研究 总被引:3,自引:1,他引:2
内蒙古东北地区上古生界主要是一套泥质岩石,其详细深入的矿物学工作尚不多见.本文利用JSM-6700F场发射电镜及INCA能谱仪,探讨了伊利石在成岩.极低级变质作用过程中的行为.采用D/max-2500 X-射线衍射仪,研究了伊利石的结晶度、多型和b0值.伊利石结晶度变化于0.28~0.77,除去构造应力对伊利石结晶度指数值的影响,研究区伊利石结晶度指数应>0.34,反映晚古生代地层主体属于晚期成岩带和低级近变质带.伊利石(白云母)多型分三种类型,分别是1Md型、1Md+2M1混合型和2M1型,是晚期成岩带和低级近变质带的产物.伊利石(白云母)b0值变化于8.9892 ~9.0404 之间,b0平均值9.0196 ,属中压相. 相似文献
14.
极低级变质作用及其研究方法 总被引:9,自引:2,他引:9
近年来国际上极低级变质作用的研究进展包括综合运用了伊利石结晶度等各项指标 ,将极低级变质带划分为成岩带、近变质带和浅变质带 ,成岩带和近变质带又可进一步划分为低级成岩带、高级成岩带、低级近变质带和高级近变质带 ;研究了伸展背景、阿尔卑斯碰撞背景和增生背景下的极低级变质作用 ;进一步理解了矿物的转变过程 ,建立了变质泥质岩石的矿物反应系列。即变质泥质岩石的二八面体矿物反应系列 ,为蒙皂石—伊 /蒙混层 (I/S)—伊利石—白云母 ;对应变质镁铁质岩石的三八面体矿物反应系列 ,为蒙皂石—绿泥石 /蒙皂石混层 (C/S)—绿泥石。岩石微构造也发生同步变化 ;明确了广泛应用的伊利石结晶度的本质是雏晶大小的一种量度 ,也与晶格应变有关 ,主要受反应动力的控制 ;建立了系统的研究技术方法 ,包括野外采样方法、室内X光衍射法 (XRD)、透射电镜法 (TEM )、地质温度计、地质压力计、岩石学方法、同位素地质学方法等 相似文献
15.
右江盆地三叠纪槽盆相浊流沉积岩系遭受过区域极低级变质作用。依据地质观察和伊利石结晶度、绿泥石-云母堆垛集合体、标志性粘土矿物及白云母(伊利石)b0参数测定资料,阐述了泥质岩石的成岩变质作用经浅层(近)变质作用到浅变质作用的转换特征。变质温度区间为150-350℃,低压类型,具高地温梯度(40-43℃/km).变质级及亚带总体与地层时代及岩层在地层柱中的位置有耦合关系,而与区域变形强度无关。最后指出区域极低级变质作用是印支-燕山构造旋回早期及区域变形前的地质事件,属于地壳伸展构造背景下右江边缘型盆地内部的埋藏型变质作用。 相似文献
16.
运用X射线衍射分析技术,计算了成岩带、近变质带粘土矿物C^*方向的粒度。根据阿尔卑斯造山带前陆碎屑岩粘土矿物粒度与伊利石结晶指数的关系,推导出了伊利石、绿泥石、蒙脱石、伊蒙混层、高岭石和叶蜡石的c^*方向粒度变化趋势曲线。结果表明,大多数产于成岩带和近变质带的粘矿物其c6*方向粒工为几至几十纳米。成岩带和近为质带是一维天然纳为级土帮物的产地。 相似文献
17.
P. ÁRKAI 《Journal of Metamorphic Geology》1991,9(6):723-734
Abstract Fairly strong (r= 0.75–0.85) positive linear correlations were found between crystallinity indices (peak widths) measured on the first two basal reflections of chlorite and those of illite–muscovite in <2-μm fractions of a representative shale–slate–phyllite series from Palaeozoic and Mesozoic formations of northeast Hungary. The metamorphic grade ranges from late or deep diagenesis through anchizone to epizone conditions. Chlorite crystallinity values measured on air-dried and ethylene-glycol-solvated samples suggest that the effects of expandable interlayers are negligable, especially in the higher grade (~temperature) part of the series. However, the greater scattering of crystallinity values for the chlorite 001 reflection compared to those of the 002 reflection may be related to the effects of minor amounts of interlayered and/or discrete smectite and/or vermiculite. With increasing metamorphic grade and advancing equilibrium recrystallization, the chlorite compositions in different samples become more homogenous. No correlation exists between crystallinity and changes in chlorite composition as estimated from the intensity ratios of basal reflections. Hence an increase of domain size and a decrease of lattice distortion with increasing grade (~temperature) may be decisive factors affecting chlorite crystallinity. Chlorite crystallinity can be applied as a reliable regional, statistical technique complementary with, or instead of, the illite crystallinity method. The illite and chlorite crystallinity scales used here are related to Kübler's epi-, anchi- and diagenetic zones and correlated with coal rank, conodont colour alteration and mineral facies data. As the effects of the detrital white mica can be observed even in the <2-μm fractions of anchizonal metapelites, the anchizone boundaries determined solely on the base of ‘fixed’illite crystallinity values may vary with amounts of detrital and newly formed muscovite–illite. Hence a complex approach utilizing more than one method for determination of grade is preferred for petrogenetic purposes, even if relationships between crystallinity scales, coal rank and mineral facies also vary strongly in different tectonic settings and lithologies. 相似文献
18.
This paper presents data and preliminary interpretations on the diagenesis of Early Paleozoic continental margin deposits along a traverse of the Quebec Appalachians near Quebec City, Canada. Regional variations in diagenesis were studied using the thermal maturation of organic matter in shales (reflectance measured on asphaltic bitumen, 105 samples) and illite crystallinity (330 samples). These revealed a regional southeastward increase in grade from the late middle and late stage of diagenesis to epimetamorphism, which is reflected in the distinction of four zones: Zone I representing the late middle diagenetic stage has a mean reflectance in oil (R0) between 1.0 and 1.5% and illite crystallinity between 5.5 and 8.0 mm. Zone II (late diagenetic stage) is characterized by R0=1.5–2.6% and illite crystallinity between 3.5 and 5.5 mm. Anomalously poor illite crystallinities in Zone II (i. e. 5.5 to 8.0 mm) were obtained for black shales, in which improvement of crystallinity lags behind red and green shales. Zone II is subdivided into subzones IIA and IIB. In the former, reflectance and illite crystallinity increase, within individual nappes, as a function of age or depth of burial. In the latter no such dependence is observed, instead diagenetic grade increases regionally in a southeastward direction as it does in zones III and IV. Zone III represents the anchizone in which observed reflectance values R0 range from 2.6 to 4.0% and illite crystallinities from 2.0 to 3.1 mm. In Zone IV (epizone) illite crystallinity is less than 2.0 mm (In terms of reflectance the anchi-zone/epizone boundary was not defined). Zones I and IIA are anomalous in that lower tectonic units are diagenetically less altered than higher tectonic units: R0 varies from 1.71 to 2.30% for the highest tectonic unit (Cambrian Chaudière Nappe), 1.53 to 1.90% (Cambro-Ordovician Bacchus Nappe) and 1.08 to 1.46% (Lower Ordovician Pointe-de-Lévy Nappe) for the middle tectonic units, and 1.01 to 1.15% for the lowest tectonic unit (Middle Ordovician Quebec Promotory Nappe). Thermal maturation and mineral diagenesis in zone IIA are probably due solely to sedimentary burial at the original site of deposition (by an estimated 6 to 7 km of younger sediments) because in this zone the highest diagenetic grade occurs in the highest tectonic unit. Diagenesis in the nappes of zone I probably required additional tectonic burial by the higher nappes because original sedimentary thicknesses that once overlay these Lower and Middle Ordovician rocks appear insufficient to have caused the observed degree of diagenesis. Diagenesis in zone IIA, therefore, was most likely formed entirely before orogenesis; in zone I it is probably partly pre-orogenic in origin and has been transported during nappe-movement. In contrast, diagenesis and metamorphism in zones IIB to IV are interpreted as related to regional synorogenic heating in conjunction with the Taconic orogeny. Thermal maturation levels in zone I indicate that the rocks have not yet passed the “oil window” which is of interest for petroleum exploration in Quebec. An extended English version of this paper is in preparation for the Bulletin of Canadian Petroleum Geology (Ogunyomi et al., ms.). 相似文献
19.
We used illite and chlorite crystallinities, index minerals, mineral assemblages, polytype and domain size of white mica, electron microprobe analysis (EMPA), b0 geobarometer and chlorite geothermometer to quantify the diagenetic and metamorphic overprint on the Triassic flysch formations in the Songpan-Garzê orogen along profile Zoigê-Lushan, northwest Sichuan. Two anchizones, two epizones, one diagenetic zone and a transition belt in-between them are defined on the basis of the obtained data. lllite crystallinity correlates strongly with the best mean domain size of mica and moderately with chlorite crystallinity. 2M1 white mica polytype are observed within the epizone whilst 2M1 and 1M polytypes occur in the anchizone and diagenetic zone. Epizonal metamorphism reached maximum temperatures of 370℃±21℃ at low-to intermediate pressure conditions. Clay minerals underwent Ostwaid ripening during metamorphism. Rocks from both sides of the Longmenshan fault reveal contrasting degrees of metamorphic overprint: on the northwest side of the Longmenshan fault, epimetamorphlc conditions contrast with diagenetic rocks on the southeast side. 相似文献