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自20世纪60年代以来,大陆岩石圈流变学取得了较大的进展,理论和应用研究不断深入.理论上,人们不仅认识到在构造运动中岩石圈介质是流变体而非简单的刚体性和弹性体;并利用矿物和岩石的实验结果提出了岩石圈流变分层的概念,建立了一维流变模型;进而用流变的观点解释了一些具体构造现象,而且开始了三维流变结构的研究,提出了岩石圈流变结构的横向分块纵向分层的观点.应用上,人们已从把流变强度曲线简单地运用于运动学或动力学模型的阶段,进入了在三维空间中定量研究地球动力学问题的阶段.随着岩石圈流变学研究的深入及大陆岩石圈的复杂性,新的问题也不断涌现. 相似文献
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大陆岩石层流变性质是一个重要而又没有完善解决的问题:既存在支持Moho面附近为强地幔-流动弱地壳模式的实验和观测事实,也存在支持流动弱地幔-强地壳模式的观测事实. 本文利用哈佛震源机制矩张量解及有关震源深度资料,对我国震源机制随深度的变化进行分析,发现虽然表浅地震震源机制主应力轴倾角接近水平或竖直,但中、下地壳和上地幔震源机制主应力轴倾角则多样化. 这与某些存在柔性下地壳软弱层地区具有孕震层下缘震源机制主应力轴也接近水平或竖直的特征明显不同. 它可能表明上述两种壳-幔流变模式在我国均存在,对我国岩石层流变性质还需要分区进行更细致的多方面研究. 相似文献
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岩石的流变决定了地球各时空尺度的变形,是理解大陆岩石圈构造演化的关键.岩石流变学的研究主要通过高温高压流变学实验和天然变形岩石的多尺度观测来实现,目前已经积累了大量的数据.本文总结了岩石圈不同深度主要造岩矿物,包括橄榄石、斜方辉石、单斜辉石、角闪石、斜长石、石英和云母的流变机制、组构类型以及地震学性质;介绍了岩石圈地幔橄榄岩、榴辉岩、基性麻粒岩、斜长角闪岩和长英质岩石的高温高压实验和天然变形观测进展,包括流变学强度和行为、地震波速和各向异性等;以青藏高原为例,讨论了岩石流变学研究在解译地震波速各向异性的定量化约束作用.将矿物变形组构与地震波各向异性相结合,有望在岩石圈流变学机制和结构的研究中取得重要突破. 相似文献
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本文主要总结了近十多年来橄榄岩流变实验的研究成果,介绍了上地幔流变研究的进展和意义.经过多年的实验研究,橄榄岩流变性质在理论和应用方面都已取得重要突破.人们利用高温高压实验深入研究了熔/流体、铁含量、粒径尺度、温压条件等因素对橄榄石流变性质的影响,得到了表征橄榄石流变特性的幂率本构方程的各参数,并从理论方面探讨了橄榄石等矿物在不同深度处可能存在的变形机制.在应用方面,高温高压流变研究为许多地质现象(如软流圈的成因)的解释和地球动力学(如地幔对流)的模拟提供了实验依据和基础数据,如辉石的粒度效应可以解释上地幔板块边界变形及剪切局域化问题等.尽管对上地幔矿物的流变特性进行了深入地研究,但还有许多问题需要人们进一步厘定,如碳酸盐熔体对橄榄石流变性质的影响,橄榄石变形机制的转化等. 相似文献
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岩石圈流变学的目标是研究岩石圈物质的变形、流动及其机制。70年代以来高温高压岩石力学实验和地热研究的丰硕成果,推动了该分支学科的进展。Ranali等(1987)建立了7种岩石圈流变学剖面,并论述了岩石圈的流变学分层特性。此后,一些学者对不同地区的岩石圈做了研究,获得了类似的结果,建立了岩石圈流变学分层理论。运用这一理论,能解释地球科学许多分支学科所研究的不同尺度的构造现象。因为岩石圈的结构分层和流变性质,控制了大陆构造的形成演化,尤其是大陆构造变形。最新研究表明,一系列深成构造作用,如下地壳韧性剪切、造山带演化晚期或造山期后重力塌陷和莫霍面松驰等,与下地壳软化和塑性流动密切相关,而中上地壳(或汇聚带上地幔最上部)脆性域控制了地震震源的分布 相似文献
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岩石圈流变机制的确定及影响岩石圈流变强度的因素 总被引:20,自引:2,他引:20
讨论了确定岩石圈流变强度中存在的问题,根据Byerlee定律,给出了在Anderson断层系统下三种断层的摩擦滑动强度公式,利用小标本实验结果外推,用大标本实验结果作约束,得到岩石圈几种典型岩石的脆性破裂规律,利用上述结果和传统的方法,分别得到了鄂尔多斯和山西裂谷两个典型地区的流变强度随深度的变化。结果表明,以往的计算对岩石圈流变强度的估计过高,对脆性形变区估计不足,流变机制估计不对;岩石圈有力学分层的特性,但各地分层的深度范围不同,使得成层和力学作用变得复杂,讨论了水、应变率以及多相矿物对流变强度的影响。 相似文献
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在总结岩石变形机制与岩石流变学实验进展的基础上,讨论了岩石流变学数据的重复性。虽然高温高压流变学实验积累了大量的数据,但中、上地壳长英质岩石和早期获得的石英集合体的流变实验数据重复性比较差,而近年来发表的石英、长石的流变学实验数据重复性相对较好。虽然利用经验理论模型,根据端元组分可以拟合两相矿物集合体的流变律,但并不能满足定量确定复杂组分和特殊流变性的长英质岩石流变参数的需要。因此,利用长英质岩石流变参数估计大陆地壳流变强度剖面时,即使在相同地温和应变速率条件下,给出的流变曲线、脆-塑性转化带深度也有一定差别,还需要通过大量实验给出更精细的长英质岩石流变学实验数据。根据近年来流变学实验研究的新进展,讨论了在实验室条件下影响长英质岩石流变的各种因素,重点分析了流体、岩石成分、样品粒度和组构对流变的影响。微量结构水对岩石流变有显著的弱化作用,而熔体对流变的影响与熔体含量和分布相关,只有熔体呈薄膜状湿润颗粒边界时,熔体的弱化作用才显著。成分对岩石流变的影响不仅体现在样品的应力指数等流变参数的变化方面,还体现在样品从半脆性变形向塑性变形的转化温度方面。粒度主要影响岩石的变形机制,其中,细粒样品在扩散蠕变域具有应力与粒度线性负相关特性,是理想的应力计,可以用来定量确定韧性剪切带的流变强度;而在位错蠕变域,应力与粒度没有依存关系,这为将实验室条件得出的流变数据外推估计地壳流变提供了重要依据。组构和各向异性是地壳中岩石存在的普遍现象,但关于层状组构对多相矿物组成的岩石流变影响的研究非常少,需要通过新的实验来深入研究。 相似文献
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利用地热学、流变学和重力学方法,计算了南海岩石层温度结构、流变特征及地幔对流格局.南海莫霍面温度在600-1000℃之间.岩石层底界面温度在1150-1300℃之间,有效粘滞系数为1020-1021Pa·s,与冰期回弹资料确定的地幔粘度吻合,表明南海深部具备产生地幔热对流的物理条件.研究认为地幔物质由北西向南东方向的运移以及印澳-欧亚板块的碰撞,导致南海北部大陆边缘向洋扩张、离散和断裂解体.在向洋离散过程中,陆-洋岩石层底部地幔局部对流使中央海盆扩张和北部陆缘发生差异性块断运动. 相似文献
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在高温高压及慢应变率下使磁铁矿岩样品发生了流变。对此过程前后的磁性测试表明,产生了与流变过程相关的磁化率各向异性。进一步研究说明,这种“流变磁效应”,主要是由于岩样内磁性矿物颗粒在流变过程中,由大致等粒形且方向性不明显而转变为扁椭球形且具有了一定优选方位而造成的。地震孕育是在高温、高压及缓慢的时间过程中进行的,因此研究流变带来的物性变化对于地震前兆的认识至关重要。本实验结果从一个新的角度探索地震磁效应,具有理论和实际意义。 相似文献
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Microcosmic analysis of ductile shearing zones of coal seams of brittle deformation domain in superficial lithosphere 总被引:1,自引:0,他引:1
JU Yiwen WANG Guiliang JIANG Bo & HOU Quanlin . Graduate School Chinese Academy of Sciences Beijing China . College of Mineral Resources Geosciences China University of Mining & Technology Xuzhou China 《中国科学D辑(英文版)》2004,47(5)
For many years, the study on ductile shearing zones mainly focuses on the strain analysis and the characteristics of microcosmic structure of felsic duc-tile shearing zones in deep layers (8—10 km). Discus-sions on the process of the development of small-type and mini-size ductile shearing zones have been re-ported in recent years[1,2]. 揇uctile deformations in brittle deformation擺3] and 揵rittle deformations in ductile deformation擺4] are rather a familiar phenome-non in nature. Researchin… 相似文献
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对目前存在的3种应变率约束条件(常应变率,常构造力,与应变率有关的构造力约束)进行了讨论,它们都不能真实地反映岩石圈内的应变率分布及实际观测.基于近几年GPS测量的研究结果,提出利用GPS实测应变率对岩石圈流变结构进行约束的新方法.对华北地区实际流变剖面的计算结果表明,本文方法克服了上述三种约束条件的不足,利用它所确定的岩石圈流变结构更为合理,在流变性质上较好地反映了与大地构造的对应关系,而且一定程度上反映岩石圈内各种状态参量及物质参量对流变结构的影响.同时还讨论了这种约束存在的问题. 相似文献
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Areas which are geodynamically different have different behaviors both in their thermal regime and seismic activity. A stable area has a geotherm which can be considered as standard, extensional and compressional areas have, respectively, high and low temperature gradients. The Italian region includes different geodynamical areas and all such situations are present. We consider the Apulian platform as an example of a stable area and the Tuscany-Latium as an example of an extensional area. For both of them the present geotherms are calculated, taking into account, for the Tuscany-Latium, its thermal history. Assuming that each region is subject to a constant strain rate, the stresses are calculated as functions of depth and time. The rheological behavior is assumed to be linear viscoelastic, with viscosity dependent on temperature and elastic parameters dependent on lithology. The geothermal profile and the rheological structure of the lithosphere remarkably affect the processes of stress accumulation which control the distribution of seismic activity. The abrupt decrease of the temperature gradient at the Moho produces considerably higher stress values with respect to the case of uniform gradient, thus favoring subcrustal seismicity. In the case of a standard temperature gradient, subcrustal seismicity is predicted and a gap in seismicity, indicating a soft intracrustal layer, exists if there is a discontinuity in rheology. By contrast, in the case of a high-temperature gradient, subcrustal seismicity is not to be expected, even in the presence of a discontinuity in rheology, since subcrustal temperatures are already too high to permit a sufficient stress accumluation. 相似文献
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Electromagnetic Studies Of The Lithosphere And Asthenosphere 总被引:3,自引:0,他引:3
Graham Heinson 《Surveys in Geophysics》1999,20(3-4):229-255
In geodynamic models of the Earth's interior, the lithosphere and asthenosphere are defined in terms of their rheology. Lithosphere has high viscosity, and can be divided into an elastic region at temperatures below 350 °C and an anelastic region above 650 °C. Beneath the lithosphere lies the ductile asthenosphere, with one- to two-orders of magnitude lower viscosity. Asthenosphere represents the location in the mantle where the melting point (solidus) is most closely approached, and sometimes intersected. Seismic, gravity and isostatic observations provide constraints on lithosphere-asthenosphere structure in terms of shear-rigidity, density and viscosity, which are all rheological properties. In particular, seismic shear- and surface-wave analyses produce estimates of a low-velocity zone (LVZ) asthenosphere at depths comparable to the predicted rheological transitions. Heat flow measurements on the ocean floor also provide a measure of the thermal structure of the lithosphere.Electromagnetic (EM) observations provide complementary information on lithosphere-asthenosphere structure in terms of electrical conductivity. Laboratory studies of mantle minerals show that EM observations are very sensitive to the presence of melt or volatiles. A high conductivity zone (HCZ) in the upper mantle therefore represents an electrical asthenosphere (containing melt and/or volatile) that may be distinct from a rheological asthenosphere and the LVZ. Additionally, the vector propagation of EM fields in the Earth provides information on anisotropic conduction in the lithosphere and asthenosphere. In the last decade, numerous EM studies have focussed on the delineation of an HCZ in the upper mantle, and the determination of melt/volatile fractions and the dynamics of the lithosphere-asthenosphere. Such HCZs have been imaged under a variety of tectonic zones, including mid-ocean ridges and continental rifts, but Archaean shields show little evidence of an HCZ, implying that the geotherm is always below the mantle solidus. Anisotropy in the conductivity of oceanic and continental lithosphere has also been detected, but it is not clear if the HCZ is also anisotropic. Although much progress has been made, these results have raised new and interesting questions of asthenosphere melt/volatiles porosity and permeability, and lithosphere-upper mantle heterogeneity. It is likely that in the next decade EM will continue to make a significant contribution to our understanding of plate tectonic processes. 相似文献
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研究了温度和应变率对岩石破裂强度的影响,得到了岩石圈中一些典型岩石破裂强度的新的经验规律.新的经验规律除考虑围压和标本尺度的影响外,还考虑了温度和应变率的影响,并增加了新岩石的结果,所以更能反映岩石圈内岩石破裂的真实状态.通过对鄂尔多斯平均流变结构的计算和对比研究表明:传统的忽略脆性破裂的流变模型过高地估计了流变强度,流变机制的分布也不尽合理.而考虑了脆性破裂机制的流变模型的结果表明脆性区分为两部分,浅部以摩擦滑动机制控制,深部以脆性破裂机制控制.由于新的经验规律考虑的代表性岩石更全面,并考虑了应变率的影响,得到的脆性区的范围进一步增大,流变强度进一步降低. 相似文献
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According to the experimental studies on the rheology of two important mantle rocks (eclogite and harzburgite), the rheological properties of the deep subducted oceanic lithosphere are investigated by assuming a simplified harzburgite type slab model with moderate thickness of basaltic layer. When the mantle convergence rate is small or the subducting slab has been trapped in the mantle for an enough long time, the strength profile of the slab is characterized by a strong subducting crustal component lying on a weak subducting upper mantle. However, if the convergence rate is large enough, the subducting slab will be featured only by a rigid cold center. Our study suggests that the detachment of the subducting crust component from the underlying upper mantle is only likely to happen in hot slow subducting slabs, but not the cold fast subducting lithosphere. Rheological properties of the harzburgitic and the eclogitic upper mantle vary with depths. The eclogitic upper mantle is stronger than the peridotitic upper mantle across the upper mantle. Transition zone is the high strength and high viscosity layer in the upper mantle except the lithosphere. 相似文献