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1.
角闪岩作为中下地壳的重要物质组成,其岩石和矿物的变形行为及力学强度表现直接制约着中下地壳力学属性与状态,因此开展对其中重要组成矿物角闪石的变形行为和地震波各向异性研究,具有重要地质意义.以红河-哀牢山剪切带中出露的变形角闪岩中角闪石为研究对象,其中显微构造分析表明,变形角闪岩分别呈现出粗、中粒条带状糜棱岩和细粒条带状超糜棱岩.分别对这3种变形岩石中的角闪石矿物颗粒进行了EBSD晶格优选定向分析和地震波各向异性计算,结果表明3种变形角闪岩中的角闪石呈现出不同取向及典型晶质塑性变形特征,(100)[001]主要滑移系发育,同时发育不同程度的(010)[001]和(110)[001]次级滑移系.我们认为在剪切变形过程中,角闪石双晶滑移和解理面滑移共同作用致使角闪石细粒化.从粗粒到细粒条带状角闪石,随着角闪石颗粒粒度减小,角闪石中AV_p也有逐渐变小的趋势,表明角闪石变形行为、形态优选定向及晶格优选定向共同影响着地震波各向异性. 相似文献
2.
本文通过对秦岭造山带核部,河南西峡寨根地区角闪岩中角闪石组构及其与韧性剪切带关系的研究,得出几点认识:(1)角闪石的优选方位受控于韧性剪切带,随着韧性剪切作用的加强,L构造岩愈趋典型;(2)分析角闪石中光率体轴Ng与结晶C轴的关系,Ng轴偏于一个方向,表明受剪应力所致;(3)通过角闪石C轴与剪切带边界关系的研究,确定剪切带为左旋剪切性质;(4)据角闪石组构及韧性剪切带与其它构造相互关系,恢复秦岭造山带的历史,至少经历了区域动热变质变形阶段、韧性再造阶段和脆性改造阶段。 相似文献
3.
大别山北缘的晓天—磨子潭韧性剪切带主体发育在北大别片麻岩之上,具有近水平左行剪切的运动学特征;剪切带自中心向外围依次发育超糜棱岩、糜棱岩、初糜棱岩、变形片麻岩(片岩)、围岩,发生变形的主要造岩矿物包括石英、长石、角闪石、云母等。岩石有限应变测量和矿物颗粒形态学优选方位统计显示,随着糜棱岩化程度的加强,主要造岩矿物平均粒径均呈递减变化;矿物长短轴所反映的应变均呈加强的趋势,矿物长轴与X的锐夹角皆逐渐变小;以90°为一个区间统计的矿物长轴定向显示,变形矿物的长轴在钝角区间(顺剪切方向)有优选,以15°为一个区间统计的矿物长轴定向显示,矿物定向存在一定对称性,即在锐夹角区的优选区间和钝夹角区的优选区间互为补角区间。此外,云母矿物的应变在不同样品中均显示最大,其次为石英、角闪石、长石;随着构造岩类型的不同,应变的变化趋势最明显的也是云母,其次为石英,角闪石和长石变化不明显;矿物长轴与X轴夹角的统计表明,云母、角闪石长轴与X轴锐夹角比石英、长石均偏小。矿物的变形还表明,指示剪切带剪切方式最明显的是云母类矿物,尤其是云母鱼构造,是判定运动方向的可靠标志,其次是角闪石,较之斜长石更易形成不对称残斑构造;综合矿物在剪切带中的含量和分布,结构特点,以及对剪切带应变反映的"灵敏性"等方面的因素,石英矿物最能表现剪切带的整体应变状态,是较为理想的应变标志矿物。上述结果表明不同矿物随变形环境的渐变,在粒径、应变、形态学优选等方面具有较统一的变化,即不同变形矿物在反映剪切带的剪切作用方式、应力—应变等特征时是较为一致的;同时不同矿物在上述变化中又表现出区别于其他矿物的各自特点,这反映了矿物自身的晶体结构、结晶形态、力学性质、变形习性等特性。所以,对于研究韧性剪切带而言,针对不同研究内容,要综合不同矿物的变形情况来选取合适的变形矿物及其变形组构来研究,才能得到更准确的结果和更合理的解释。 相似文献
4.
东昆仑东段昆中构造带晚加里东期逆冲型韧性剪切变形的年代学证据及其意义 总被引:2,自引:0,他引:2
东昆中构造带沟里一带东西向展布的新元古代—早古生代的变质岩系中透入性发育东西向由南向北高角度韧性逆冲变形,变形变质温压环境为绿帘角闪岩相。本文的年代学资料首次证实了韧性逆冲变形发生于晚加里东期。构造带中变形花岗闪长岩获得的446±2.2 Ma的锆石U-Pb的谐和年龄,可作为逆冲型韧性剪切变形年龄的下限;构造岩中新生的且强变形的角闪石Ar/Ar测年获得426.5±3.8 Ma的坪年龄,应代表岩石的韧性逆冲变形年龄,构造岩中的定向 相似文献
5.
关于太古宙早期地壳演化构造机制的争论已经持续了数十年,其焦点主要集中于水平构造还是垂向构造两大经典构造模式的探讨.对于早期地壳构造演化方面的研究,将会有助于我们更好地理解早前寒武纪的地球动力学机制.本文对华北克拉通东北部鞍山地区花岗-绿岩带内齐大山韧性剪切带的构造变形特征进行了详细的解析,揭示了该区新太古代垂向构造作用样式.研究结果表明,齐大山韧性剪切带内花岗质岩石长英质矿物塑性拉长特征明显,条带状构造发育,面理向NWW方向陡倾,不对称组构特征和矿物拉伸线理产状指示向NWW的陡倾正滑移剪切作用.变形岩石中的长英质矿物均发育中低温显微变形特征,石英C轴电子背散射衍射(EBSD)组构分析揭示石英以菱面<a>和底面<a>滑移系为主,岩石经历了中低温非共轴变形.根据矿物的变形行为以及石英的结晶优选方位推测变形温度约为400~500℃,岩石变形特征以位错蠕变为主.有限应变分析结果表明,靠近铁矿带方向,构造岩类型由L=S构造岩过渡为LS构造岩,岩石应变强度呈明显增强趋势.运动学涡度测量结果显示齐大山韧性剪切带内大多数岩石样品的Wk值大于0.75,岩石形成于以简单剪切作用为主的一般剪切作用.对比花岗-绿岩带西侧的白家坟韧性剪切带,显示二者均具有相向的陡倾正滑移运动学特征,表明新太古代时期鞍山地区地壳构造演化模式以垂向构造作用为主. 相似文献
6.
韧性剪切带是大陆变形过程中形成于地壳深层次的重要构造变形形迹,是重建构造变形温压环境、变形几何学、运动学及动力学的重要研究对象。剪切变形方向的确定是韧性剪切带研究的基础环节之一。尽管指示韧性剪切带剪切方向的标志很多,但是由于韧性剪切带变形过程的复杂性,实际工作中往往很难准确地限定剪切方向,甚至常常会发现同一条韧性剪切带中发育指向相反的剪切标志。在变形岩石中,不对称旋转碎斑系被认为是判断韧性剪切带剪切方向的可靠标志。根据有拖尾的旋转碎斑系判断剪切指向要比“云母鱼”、“多米诺”等组构可靠得多。总结前人的理论和模拟试验成果,可以清楚地认识到,碎斑系的演化是其形态、轴率、初始方位、基质及其界面性质、运动学涡度、剪应变强度、剪切带的厚度、碎斑短轴比等因素综合作用的结果。深刻认识不对称旋转碎斑系在韧性剪切带形成过程中的发育过程、限制条件、影响因素,将有助于准确地运用它们来判断韧性剪切变形的构造指向,以便进一步研究与该韧性剪切变形相关的大陆动力学。 相似文献
7.
青海省哇洪山断裂带中段构造变形特征及X光岩组分析 总被引:3,自引:0,他引:3
通过对哇洪山断裂带中段构造变形宏观及微观特征的研究,认为该断裂带经历了两种不同层次、不同性质的构造变形,早期以韧性变形为主,形成了沿断裂带广泛分布的NW-NNW向糜棱岩带;晚期以脆性变形为主,形成了广泛分布断层破碎带,并将早期的糜棱岩带错断。X光岩组分析结果表明,糜棱岩带构造岩内矿物排列定向性明显,其中石英变形以底面滑移或近底面滑移为主,兼有柱面滑移,为中低温-中温变形环境所形成;另外动态重结晶对变形岩石中石英优选方位的形成也可能发挥了重要作用。华里西晚期花岗闪长岩、印支期钾长花岗岩、花岗岩、二长花岗岩均没有明显的优选方位,因此韧性变形发生在该类岩石侵位之前。构造变形分析及同位素测年结果证实韧性剪切带形成于晚志留世,即加里东晚期。 相似文献
8.
9.
角闪石在低温变形中通常显示脆性变形行为,通过对中澳洲Florence剪切带的铁镁质糜棱岩的观察研究表明,角闪石在这些高温变形环境的糜棱岩中显示出显著的塑性变形行为,表现在角闪石遭强应应变后,无碎裂出现,而具明显的晶内塑性应变现象的和强烈的晶体优选定向,角闪石的细粒化是由边界重点结晶迁移所致,本文探讨了引起角闪石塑性变形的一些因素,认为岩石发生糜棱岩化时的高温环境增强了角闪石的韧性,几何软化对角闪的 相似文献
10.
韧性剪切带糜棱岩中不对称旋转碎斑系剪切指向模拟实验研究现状及其问题 总被引:1,自引:1,他引:0
韧性剪切带是大陆变形过程中形成于地壳深层次的重要构造变形形迹,是重建构造变形温压环境、变形几何学、运动学及动力学的重要研究对象.剪切变形方向的确定是韧性剪切带研究的基础环节之一.尽管指示韧性剪切带剪切方向的标志很多,但是由于韧性剪切带变形过程的复杂性,实际工作中往往很难准确地限定剪切方向,甚至常常会发现同一条韧性剪切带中发育指向相反的剪切标志.在变形岩石中,不对称旋转碎斑系被认为是判断韧性剪切带剪切方向的可靠标志.根据有拖尾的旋转碎斑系判断剪切指向要比"云母鱼"、"多米诺"等组构可靠得多.总结前人的理论和模拟试验成果,可以清楚地认识到,碎斑系的演化是其形态、轴率、初始方位、基质及其界面性质、运动学涡度、剪应变强度、剪切带宽度/碎斑短轴等因素综合作用的结果.深刻认识不对称旋转碎斑系在韧性剪切带形成过程中的发育过程、限制条件、影响因素,将有助于准确地运用它们来判断韧性剪切变形的构造指向,以便进一步研究与该韧性剪切变形相关的大陆动力学. 相似文献
11.
John Starkey 《Tectonophysics》1979,58(1-2)
The regional development of distinct patterns of preferred orientation of quartz c-axes in the Saxony Granulites has been well documented in the literature. A suite of specimens representative of these fabrics has been examined both by optical universal stage, to determine quartz c-axis orientation, and by X-ray diffraction, to obtain orientation data from r, z, m and a. The data are combined to yield inverse pole figures of schistosity and lineation.The finite strain of the Saxony Granulites is thought to be essentially a flattening and there is no evidence that the deformation path is other than one of continuous flattening. Elongation in the plane of the schistosity is local and not extreme. Because of this apparently simple deformation picture, and because preliminary transmission electron microscopy reveals the presence of dislocation structures similar to those found in deformed metals, an attempt is made to interpret the quartz orientation in terms of dislocation slip mechanisms. There is some evidence that the activation of different mechanisms is perhaps primarily controlled by temperature. At least some of the patterns of preferred orientation of quartz were probably produced by deformation in the field of stability of α-quartz. 相似文献
12.
The lattice preferred orientation (LPO) of an anorthosite (composed of andesine) sampled from a highly deformed anorthositic mylonite (Grenville Province, Quebec) was measured by TOF neutron diffraction and SEM-EBSD. The quantitative texture analysis of neutron data was accomplished by using the Rietveld texture analysis with the WIMV algorithm, implemented in the program package Materials Analysis Using Diffraction (MAUD). The texture calculations of the EBSD data were performed by using the program BEARTEX. Analyses from neutron and electron diffraction data gave similar results if EBSD data are smoothed to account for grain statistics. The principal pole figures show (010) roughly parallel to the rock foliation, (001) poles exhibiting a low angle (25°) to the pole to foliation, and (100) poles close to the Y-direction (perpendicular to the lineation and foliation pole). The [100] crystallographic direction shows a maximum in the lineation direction, [010] directions concentrate near the foliation pole. The geological deformation conditions and the constructed pole figure patterns indicate that the preferred orientation could be attributed to intracrystalline slip dominantly on (010) with [100] as slip direction. Elastic properties, calculated by averaging, document weak anisotropy that has implications for the seismic structure of the lower crust. 相似文献
13.
Comments on the interpretation of deformation textures in rocks 总被引:4,自引:0,他引:4
In rocks that undergo ductile deformation, preferred orientation develops as a result of intracrystalline slip and mechanical twinning. The orientation distribution is a consequence of the microscopic mechanisms and of the strain path. It can be used to get some insight into the deformation history; however it is never unique. The interpretation relies largely on polycrystal plasticity theory. The concepts of stress equilibrium and strain compatibility, which are two extreme assumptions made to model deformation, are discussed. New approaches such as the viscoplastic self-consistent theory are a compromise and may be applicable to mineral systems which display a high degree of plastic anisotropy. Important extensions allow for heterogeneous deformation in the polycrystal from grain to grain and even within grains in correspondence with microstructural observations. All these theories defy the popular notion which is becoming entrenched in the geological literature, that the microscopic slip plane normal aligns with the axis of maximum principal compressive stress, and that in simple shear the crystallographic slip plane rotates into the macroscopic shear plane and the slip direction into the macroscopic shear direction, an orientation referred to by geologists as ‘easy glide’. It is emphasized that future work on texture development of rocks should be based on rigorous physics rather than ingenious intuition, in accordance with an old recommendation of Walter Schmidt. 相似文献
14.
《Physics and Chemistry of the Earth, Part A: Solid Earth and Geodesy》2000,25(2):127-132
The Moine nappe mylonites of the area of Loch Eriboll are inferred to have deformed predominantly by simple shear. Samples were taken from each limb of a late recumbent fold and the quartz crystallographic preferred orientation and optical microstructure were investigated. The pattern of preferred orientation was found to be related to the local folded orientation of the foliation and stretching lineation for the overturned limb and to the inferred imposed deformation for the normal limb. The mechanical development of the fold was modelled as a similar fold forming in a homogeneous mechanically anisotropic material with linear viscous rheology. A very high mechanical anisotropy was required for active amplification of small initial perturbations under simple shear applied at 10 ° to the initial enveloping surface. The high anisotropy also constrained the local kinematics to approximate simple shear parallel to the plane of easy shear, which contributes to the maintenance of the preferred orientation patterns relative to the local macroscopic fabric elements. The degree of mechanical anisotropy calculated from the preferred orientation assuming the operation of the common quartz slip systems is lower than that required for mechanical amplification of the folds. Consequently, it is suggested that the mechanical anisotropy derives from sliding on preferentially aligned grain boundaries. 相似文献
15.
Francisco J. Fernández Helder I. Chaminé Paulo E. Fonseca José M. Munhá António Ribeiro Jesus Aller Mercedes Fuertes-Fuentes Frederico S. Borges 《地学学报》2003,15(2):96-103
ABSTRACT The study of a garnet-bearing quartzite from a major suture zone in Iberia reports an unusual high-T fabric. Quartz c -axis patterns were plotted using shaped garnet as reference axis for the finite stretch ( X -axis). The pole figures are characterized by a dominant single maximum around X together with other point maxima along the XY plane (mylonitic foliation). These patterns suggest that dominant < c > prism slip and subordinated < a > prism slip operated during quartz plastic deformation in agreement with P–T conditions for syntectonic garnet growth (4–5 kbar and 700 ± 50 °C) and, pre-dating the well-known (late) Variscan D1 event (<6 kb and 600 ± 30 °C). The geotectonic framework suggests that the fabrics were formed along the western shear margin of the Ossa-Morena Zone during the early stages of the Variscan orogeny. 相似文献
16.
The Bhavani Shear Zone (BSZ), part of the Palghat-Cauvery shear system of southern India, comprises a number of subparallel
shear zones ranging in width from a few centimetres to tens of metres. These shear zones are characterised by progressive
mylonitisation and shear fabrics corresponding to increasing strain, as documented by grain size reduction, flattening, elongation
and dimensional preferred orientation of constituent minerals (quartz, hornblende, biotite, plagioclase and orthoclase). However,
SEM-EBSD measured crystal preferred orientations (CPO) of these minerals are more complex and indicate interchange of maximum
(X) and intermediate (Y) tectonic axes during different phases of deformation, with the minimum axis (Z) remaining approximately
constant. The tectonic evolution of the BSZ and the disposition of the surrounding Archaean and Pan-African granulites are
interpreted therefore in terms of polyphase deformation involving both dip-slip and strike-slip movement events in a multiply
reactivated setting. SEM-EBSD CPO analysis provides clearer indication of potentially conflicting movement directions that
are otherwise poorly constrained by shear markers and shear sense indicators. 相似文献
17.
Microstructural study of a natural slip zone: quantification and deformation history 总被引:4,自引:0,他引:4
Microstructure of a natural slip zone was comprehensively examined using a combination of images captured systematically by optical microscopy (OPM) and backscattered electron microscopy (BEM) techniques. Microstructural features identified on these images were processed and evaluated using an advanced image analysis system, which proved that quantitative analyses could considerably enhance the understanding of shear behavior of slip zones. It was found that variations of porosity, abundance of platy clay particles and alignments of particles are significant indicators revealing nature of deformation processes. These indicators show that global mechanical behavior of the investigated slip zone can be conceptualized as that of normally consolidated clayey soils under drained conditions.
The geometric patterns of the microstructure of the slip zone are similar to the S–C fabrics seen in tectonic shear zones. It is suggested that combined progressive bulk simple shear and pure shear modes enable to realistically reconstruct the kinematic history of the slip zone, through which particle movements and microstructural evolution were accomplished via various types of particulate flows. The results of this study show that clay mineralogy plays a more important role in the development of the slip zone than abundance of clay-size particles, while both clay mineralogy and relative proportions of each particle size fraction control the response of particles to shear deformation. Among the fractions present in the slip zone, fine silts are the strongest indicator of global shear stress characterized by their highest degree of alignment, whereas clay particles are the weakest. Highest degree of shape preferred orientation is also found within fine silt domains. 相似文献
18.
Dr. Kurt v. Gehlen 《Contributions to Mineralogy and Petrology》1960,7(5):340-388
Quantitative determinations of preferred orientation of opaque minerals have been made only in a few cases by measuring cleavage faces (galena,D. Schachner-Korn). In this paper several methods are investigated critically which are likely to allow the determination of pole figures of ore minerals in a reasonable time. In the first part the special difficulties are discussed which occur in measurements of preferred orientation with X-ray pole figure goniometers (reflection method byL. G. Schulz) when the specimen consists of more than one mineral, when the mineral investigated is coarse-grained, and when the specimen is small. A critical discussion of instrumental errors is included. This method can now also be applied to the determination of preferred orientation in rocks, ceramic materials, etc. In the second part optical methods are given which include the construction of pole figures from measurements of bireflection and polarization figures of uniaxial minerals in reflected light. Examples of pole figures of pyrrhotite, hematite, pyrite, sphalerite, and chromite are given.
Der Naturwissenschaftlichen Fakultät der Friedrich-Alexander-Universität Erlangen als Habilitationsschrift vorgelegt. 相似文献
Der Naturwissenschaftlichen Fakultät der Friedrich-Alexander-Universität Erlangen als Habilitationsschrift vorgelegt. 相似文献
19.
The deformation history of a monophase calcite marble shear zone complex on Thassos Island, Northern Greece, is reconstructed by detailed geometric studies of the textural and microstructural patterns relative to a fixed reference system (shear zone boundary, SZB). Strain localization within the massive marble complex is linked to decreasing P–T conditions during the exhumation process of the metamorphic core complex. Solvus thermometry indicates that temperatures of 300–350°C prevailed during part of the shear zone deformation history. The coarse-grained marble protolith outside the shear zone is characterized by symmetrically oriented twin sets due to early coaxial deformation. A component of heterogeneous non-coaxial deformation is first recorded within the adjacent protomylonite. Enhanced strain weakening by dynamic recrystallization promoted strong localization of plastic deformation in the ultramylonite of the calcite shear zone, where high strain was accommodated by non-coaxial flow. This study demonstrates that both a pure shear and a simple shear strain path can result in similar crystallographic preferred orientations (single c-axis maximum perpendicular to the SZB) by different dominant deformation mechanisms. Separated a-axis pole figures (+a- and −a-axis) show different density distributions with orthorhombic texture symmetry in the protolith marble and monoclinic symmetry in the ultramylonite marble consistently with the observed grain fabric symmetry. 相似文献