南岭中生代姑婆山-花山花岗岩基及其热接触变质围岩的应变特征和应变分析

采用Rf /φ法对姑婆山-花山花岗岩基及其热接触变质围岩进行了系统的应变测量,共测量了153个三维有限应变测量点、1.5万余个应变标志体。结果表明：（1）姑婆山-花山花岗岩基热接触变质围岩和早期侵位的牛庙、杨梅山独立侵入体及里松和望高单元以压扁型应变为主,晚期侵位的新路单元则为拉长型应变。（2）姑婆山-花山花岗岩基的平均应变强度和平均压缩率均小于热接触变质围岩的平均应变强度和平均压缩率,且岩基内从早期单元到晚期单元（除新路单元外）平均应变强度和平均压缩率均逐渐减小;热接触变质围岩内应变强度和压缩率向岩基接触面方向递增,存在较明显的应变强度梯度和压缩率梯度。另外岩基南侧以碳酸盐岩为主的热接触变质围岩的压缩率远高于北侧以碎屑岩为主的围岩压缩率。（3）姑婆山-花山花岗岩基应变型式表现为近接触变质围岩及各花岗岩单元边部的应变椭圆长轴多与接触界线相协调,最小主应变轴与接触界线多呈大角度相交;各单元中部的应变椭圆展布则比较凌乱、定向性不明显。上述特征表明,姑婆山-花山花岗岩浆的多期脉动侵位在岩体及其围岩内产生较强的应变叠加,而岩浆内部的主动侵位动力应是造成岩体及其热接触变质围岩变形的主要动力,且在岩浆多次脉动侵位过程中,岩体内早期单元及其围岩主要遭受的是径向挤压作用。     

桂北元宝山花岗岩体中电英岩包体的应变测量和分析

在系统的野外地质调查基础上,通过对元宝山花岗岩体地质特征的分析,运用岩石有限应变测量、应变分析等方法,着重分析了元宝山花岗岩体中电英岩包体的应变特征,确定了电英岩包体的变形时代和原因.系统地开展了元宝山花岗岩体中电英岩包体的三维有限应变测量和应变分析.结果表明:电英岩包体的应变型式可分为3种:平面型应变(K=1)、压扁型应变(0＜K＜1)和收缩型应变(1＜K＜∞),且以平面型应变为主,有少量的压扁型应变和收缩型应变.     

广西海洋山花岗岩体侵位构造特征

花岗岩是大陆地壳的重要组成部分,是地球动力学演化的示踪剂。花岗岩体侵位构造的研究对于揭示花岗岩体的变形历史和侵位机制具有重要的科学价值。本文研究了海洋山花岗岩体的内部构造、与岩浆侵位应力有的围岩构造及热接触变质带特征,探讨了岩体和围岩的应变状态。研究发现,从岩浆侵位到冷凝固结,海洋山花岗岩体经历了液态流动、塑性变形和“半固态”冷凝阶段的演化。岩体各单元的应变类型分别是单轴压扁、平面应变、单轴压缩,     

安徽青阳花岗闪长岩体的侵位构造和刺穿式底辟就位机制

青阳花岗闪长岩体及其围岩中均发育压扁变形构造，形成环状向斜、线理、边缘片麻理、热收缩张节理的构造组合。变质变形作用、结合岩石学特征的分析结果显示，岩体是以刺穿式底辟作用就位于早古生代地层中的。     

地下洞室开挖过程围岩应变能调整力学机制

深埋洞室岩体开挖过程中,围岩应变能的聚集和释放是洞室发生灾变破坏的重要诱因。针对圆形洞室开挖,分析和比较初始地应力准静态和动态两种不同卸载方式下围岩应变能的调整过程,基于能量角度判定了围岩损伤范围。研究表明：伴随地下洞室的开挖,岩体能量靠径向应力做功的方式在围岩中由远及近传递,并导致近区围岩应变能聚集;初始地应力动态卸载诱发围岩应变能先减小后增大,先对靠近开挖面的相邻岩体通过径向应力做功的方式释放自身的应变能,随着卸载应力波的继续向前传播,远离开挖面的相邻岩体又通过径向应力对其做功的方式促使其应变能聚集;相比初始地应力准静态卸载,动态卸载条件下高应变能聚集程度导致围岩损伤破坏范围更大。     

回采工作面围岩采动应变场-渗透系数场耦合

采动岩体变形与渗透特性是工作面突水防治研究的基本问题。采用理论分析和数值模拟计算方法,分析了岩石变形-渗透特征及其三维定量关系,研究了煤炭开采中回采工作面围岩应变场、渗透系数场分布及其控制因素。研究结果表明,采动岩体渗透性变化主要取决于应变状态及应变增量,且随着垂直于裂隙的张应变的增加而增加;工作面后方垮落带和煤壁边缘的剪碎带产生剧烈的采动拉伸变形,渗透系数较采前显著增大,而支承压力区和整体移动带岩层产生较大的采动压缩变形,渗透系数较采前明显减小;工作面围岩垂向渗透系数较水平渗透系数增加的幅度及增加区的范围小,但对水体下采煤工作面涌水起主导作用。加快工作面推进速度、减小工作面斜长和采高能降低采场围岩渗透系数增加幅度,并将渗透系数场变化范围局限在采区附近,能有效减小采动对原始煤岩层渗透性的影响。      

北京云蒙山变质核杂岩大水峪韧性剪切带的应变特征及构造意义

北京云蒙山变质核杂岩东南缘的大水峪韧性剪切带是认识云蒙山变质核杂岩构造演化的关键。本文通过变形温度区间估算、有限应变测量以及运动学涡度计算等手段对大水峪韧性剪切带的应变特征进行了系统分析。长石石英温度计与EBSD石英组构分析结果表明剪切带的变形温度区间为480～650℃。剪切带南西段的变形温度自北向南逐渐降低,北东段的变形温度由岩基向断层方向先降低后升高。有限应变测量结果指示剪切带的变形整体经受压扁作用为主,南西段的压扁程度与韧性位移量均大于北东段。运动学涡度的计算结果表明剪切带在形成过程中主要受纯剪切控制。南西段的运动学涡度自北向南逐渐增大,北东段的运动学涡度由岩基向断层方向先减小后增大。据此认为岩浆作用是导致云蒙山变质核杂岩形成的主导因素,大水峪韧性剪切带北东段的拆离过程可能受到了东侧岩体的阻挡。     

阿尔泰额尔齐斯构造带岩石应变特征及其构造意义

阿尔泰额尔齐斯构造带东段岩石变形强烈,最大应变椭球轴比(Rxz)可达10～30,剪应变(γ)达4～6。该带可分为2个层次4个次级构造带。第一层次为韧性—韧脆性中—中-浅层次变形带,包括萨尔布拉克—科克萨依脆性挤压劈理化带、达拉维孜—阿热勒托别剪切流变构造带和库尔提—玛因鄂博韧性剪压变形带,第二层次是齐伯度—富蕴深层次超韧性变晶糜棱岩带。第一层次变形带中沿达拉维孜—阿热勒托别一线为最强变形带,向两侧依次减弱。中心带以剪切—拉伸变形为主,两侧以压扁变形为主兼有剪切,均为左行剪切。结合区域地质分析,可认为这3个变形带共同组成一个完整的板块(微陆块)聚合变形带,显示喀拉通克岛弧以北东偏东方向俯冲于可可托海—青河陆缘岩浆弧之下,并发生弧—陆碰撞。齐伯度—富蕴变晶糜棱岩带岩石变形温度压力条件高,以右行剪切为特点,具有完全不同的地质演化历史,反映它可能是在古生代期间被强烈改造的具有前震旦纪结晶基底的微大陆的残块(或断片)。     

基于Hoek-Brown强度准则的应变软化模型在隧道工程中的应用

基于Hoek-Brown强度准则及量化GSI围岩评级系统,分析岩体强度弱化行为,总结出确定岩体峰值及峰后强度参数的方法,提出应变软化模型的简化计算方法,并以FLAC3D数值模拟软件为工具,采用收敛-约束法对深埋大断面隧道支护结构及围岩稳定性进行分析,计算出支护结构安全系数。通过分析得出：随着围岩应力释放,岩体软化参数随之减小,岩体强度弱化行为突出;高地质强度GSI指标（GSI=75）的岩体虽然强度弱化程度较大,但围岩的变形量仍然较小,而低GSI指标（GSI=25）的岩体表现出了理想弹塑性行为;提出的简化Hoek-Brown应变软化模型适合应用于隧道中岩质相近区段围岩的研究;采用收敛-约束法对隧道支护结构的稳定性进行分析,可为隧道工程的初期支护优化设计及安全性评价提供参考。     

考虑剪胀效应的深埋圆形隧道围岩应变软化弹塑性解

隧道围岩非线性体积膨胀影响施工安全,如何正确评价隧道围岩塑性区域内扩容机制非常重要。多数研究从理论上推导深埋圆形隧洞应变软化围岩应力-应变场时仅采用恒定或线性变化剪胀模型,针对此不足,提出了一种基于有限差分法的分析方法,能够合理地考虑围岩非线性剪胀效应及其应变软化特性。利用已有的研究成果,验证了该方法的合理性,并进一步探讨了不同质量石灰岩与支护压力下剪胀系数在围岩塑性区域内的影响因素,比较了恒定与非线性变化剪胀模型下围岩变形的不同。结果表明:对于地质强度指标(GSI)较小、质量较差的岩体,塑性区域内主要由围压控制剪胀效应程度;恒定与非线性变化剪胀模型下围岩洞壁变形差别显著。     

Oblique diapirism: the criffel granodiorite/granite zoned pluton (southwest Scotland)

Strain trajectories, strain gradients and quartz (c) fabrics have been used to propose an emplacement history of the Criffel zoned pluton. Strain has been estimated from the microdioritic xenoliths included in the outer granodiorite; textural criteria have been used to complete the pattern of strain variations throughout the pluton. Strain gradients are found to be related to the granodiorite/granite boundary zone, with highest strain towards the northeast side of the pluton, giving an asymmetric horseshoe pattern. Quartz (c) fabrics allow two strain histories to be distinguished within the pluton: an early coaxial flattening in the granodiorite followed by a non-coaxial deformation in the granite and the adjacent granodiorite. These features are interpreted as the result of an oblique diapiric intrusion of the inner granite into the partially emplaced and crystallized granodiorite.     

The emplacement of the Late Miocene Monte Capanne intrusion (Elba Island,Central Italy): constraints from magnetic fabric analyses

Anisotropy of magnetic susceptibility (AMS) analysis has been carried out in the thermometamorphic aureole surrounding the Late Miocene Monte Capanne pluton (Elba Island, Central Italy). The identification and separation of the main carriers of the magnetic susceptibility by low-temperature and high-field AMS measurements demonstrate that a correct knowledge of the magnetic fabric is needed in order to use AMS for tectonic interpretations. Magnetic fabric data, combined with structural data from the aureole, and their comparison with data from the pluton itself, were used to constraint the mode of pluton emplacement. Results document an intimate linkage between the magmatic flow pattern and the syn-metamorphic fabrics acquired during pluton emplacement in the host rocks. The magnetic/structural fabric in the aureole rocks is dominated by flattening deformation and no systematic relationship with any regional tectonic feature is observed. These results suggest that local processes induced by magma ascent in the upper crust might have played a primary role in space generation for pluton emplacement in the Tuscan Magmatic Province, suggesting a revaluation of the modes of pluton emplacement during the post-orogenic evolution of the northern Apennine system as a whole.     

Microstructures and strain variation across the footwall of the Main Central Thrust Zone,Garhwal Himalaya,India

The microstructural variation with a progressive change in the strain pattern are described in the rocks occurring across the footwall of the Main Central Thrust (MCT) in an area of the Garhwal Himalaya. In the western Garhwal Himalaya, the MCT has brought upper amphibolite facies metamorphic rocks southward over the greenschist facies rocks of the Lesser Himalaya. The progressively increasing flattening strain towards the MCT changes either to plane strain or in some cases to constrictional strain. This change in strain is well recorded in the microstructures. The zone dominated by flattening strain is expressed as bedding parallel mylonites. The grain reduction in this zone has occurred by dynamic recrystallization and quartz porphyroclasts were flattened parallel to the mylonite zone. The maximum finite strain ratio observed in this zone is 2.2:1.8:1. The zone, where the flattening strain changes either to plane strain or constrictional strain, record an increase in finite strain ratio up to 3.8:1.9:1. This zone represents deformation fabrics like S–C microstructures simultaneously developed during mylonitization in an intense ductile shear zone. The above zone is either near the MCT or adjacent to crystalline klippen occupying the core of the synforms in the footwall of the MCT. The microstructural evolution and the finite strain suggest that the MCT has evolved as the result of superposition of southward directed simple shear over the flattening strain. The simple shear has played an active role in the rapid translation which followed the mylonitization at deeper levels.     

Corundum-group minerals in rocks of the Khibiny alkaline pluton,Kola Peninsula

Five minerals of the corundum group have been identified in the Khibiny pluton with certainty. Corundum proper and karelianite occur only in hornfels after volcanic and sedimentary rocks. Xenoliths of hornfels mark the ring faults that bound foidalite within the field of foyaite. Hematite occurs in hydrothermally altered nepheline syenite and crosscutting hydrothermal veins related to the ring faults. Minerals of the ilmenite-pyrophanite series are present in all rocks of the pluton, including veins. Accessory ilmenite in foyaite varies from the manganese variety and pyrophanite in the inner and outer parts of the pluton to manganese-free ilmenite in zone of the Main Ring Fault. In xenoliths of volcanic rocks and alkaline ultramafic rocks, ilmenite is enriched in magnesium. The zoning in distribution of the above-mentioned minerals and the character of variation in their compositions from margins of the pluton to its center are consistent with the petrochemical zoning formed as a result of foyaite alteration of near ring faults.     

大兴安岭南段林西地区中生代酸性岩类岩浆的混染作用

大兴安岭南段林西地区广泛出露以海相玄武安山岩、安山岩为主的晚古生代火山．沉积岩。中生代火山-侵入杂岩也广泛分布其中。花岗岩体的边部普遍二长花岗岩化和花岗闪长岩化(甚至出现闪长岩)，并含有丰富的以玄武质-安山质为主的岩石包体。侵入体-围岩接触带附近为围岩被岩浆侵蚀的港湾状交代反应过渡带。英安岩-粗面英安岩也含有相同的岩石包体，并且与流纹岩密切共生。岩石包体周缘的寄主岩常见淬冷边，聚集针状磷灰石，表明它被捕获时已是冷却的岩石，而非热的玄武岩浆团；它们的Nb／Ta、Zr／Hf比值、弱交代者的化学成分与晚古生代火山-沉积岩一致，Rb-Sr同位素比值散布在晚古生代火山-沉积岩等时线附近，其含量、未交代程度、尖棱状程度、刚性程度在侵入体中从内部到边部增多(强)，且较新鲜者结构构造与围岩相同，表明它们来自晚古生代火山-沉积岩组成的围岩；其含量与岩体边部的位置及二长花岗岩、花岗闪长岩、(粗面)英安岩的成分变化有关，表明包体成分已加入到这些岩石当中。这些岩石的环带状斜长石有两种内核：一种较富钙；另一种较贫钙。两种内核的斜长石外环成分趋同，强交代岩石包体成分和富含岩石包体的酸性岩成分趋同。两者皆记录了两种来源的物质成分同化的过程。同一岩体边部(或火山岩中)酸度较低的岩石化学成分、高场强元素在Harker图解和Nb／Ta(和Zr／Hf)-SiO2及Nb／Ta-Zr／Hf图解中具有中生代花岗或流纹岩浆与晚古生代火山-沉积岩物质混合的特征。这些事实证明林西地区中生代酸性岩浆被较基性的晚古生代火山物质混染，并生成酸度较低的混染岩浆。较基性的火山物质是在低绿片岩相变质的基础上，经钠化交代反应被酸性岩浆同化的。     

Exhumation, strain localization, and emplacement of granitoids along the western part of the Central Bohemian shear zone (Bohemian Massif)

Emplacement of granitoid magmas and simultaneous exhumation of deeply buried rocks has been investigated along the western part of the Central Bohemian shear zone (CBSZ, Bohemian Massif). Combined structural, petrological and geochronological data of the steeply dipping shear zone suggest complex uplift and exhumation of deeply buried, high-temperature Moldanubian rocks, resulting in the juxtaposition against the supracrustal Teplá-Barrandian unit. Uplift of Moldanubian rocks from depths of probably more than 30 km was initiated after crustal stacking in Upper Devonian times. Syntectonic Lower Carboniferous emplacement of the Klatovy pluton into the pre-existing shear zone led to melt-controlled strain softening and localization. However, the major part of the total displacement of the CBSZ was accommodated within a late- to post-intrusive high-temperature shear zone in the uprising Moldanubian unit and a post-intrusive unexposed fault zone in the Klatovy pluton, respectively. During uplift of the Moldanubian rocks, strain was strongly partitioned into melt-bearing zones (Klatovy pluton, migmatites of the Moldanubian unit) resulting in a repeated shift of deformation in space and time.     

Conditions of contact metamorphism, Papoose Flat Pluton, eastern California, USA: implications for cooling and strain histories

Abstract Petrological study of highly strained carbonate and pelitic rocks within the contact aureole surrounding the western part of the Papoose Flat pluton yields thermal profiles (plots of metamorphic temperature versus distance) across the aureole that show temperature gradients which are relatively flat and narrow (<100m). The gradients occur close to the contact and indicate a slight decrease in temperature from 500–550°C at the pluton/wall rock contact to 450–500°C at the outer margin of the aureole. One thermal profile across low-strain metasedimentary rocks located in the southern part of the aureole shows that thermal effects from emplacement extend no further than 600 m from the contact. Coexistence of andalusite and cordierite in pelitic rocks of the aureole constrain pressures to <4 kbar. Thermal modelling using an analytical solution of the conductive heat flow equation for a rectangular-shaped pluton reproduces the observed thermal maxima and profile shape. Conductive rather than convective cooling also is supported by isotopic and field evidence for limited fluid flow along the strongly deformed margin of the pluton. Simple thermal models coupled with observed high-temperature deformation features and a measured 90% attenuation of stratigraphic units in the plastically deformed western part of the pluton's aureole indicate that strain rates may have been of the order of 10^-12s^-1. Evidence for episodic heating, such as two distinct generations of andalusite growth in pelites from the aureole, alternatively may indicate a longer heating event and, therefore, slower strain rates. Thermal models also indicate that parts of the pluton still may have been above the solidus during deformation of the pluton margin and aureole.     

辽东铀成矿带连山关地区韧性剪切带与铀成矿作用

连山关地区位于华北克拉通北缘铀成矿省辽东铀成矿带,已知铀矿床（点）均发育在韧性剪切带附近。为了解韧性剪切带运动学、几何学构造变形机制及与铀矿的关系,本文以连山关岩体周缘韧性剪切带为研究对象,通过野外宏观调查和室内微观研究相结合的研究方法,探讨构造变形期次、韧性剪切带形成机理及其对铀成矿的控制作用。研究表明：连山关岩体周缘发育的韧性剪切带与近南北向挤压构造变形有关,其右行韧性剪切带应变类型为压扁应变,属于一般压缩-平面应变范围,Flinn指数K值在0.19~0.69之间,岩石类型属于S/SL型构造岩。研究区内铀矿体均为隐伏盲矿体,主要赋存于沿着连山关岩体和辽河群接触带右行剪切作用形成的背斜褶皱核部,和北东东向断裂关系密切。综合分析认为,连山关岩体南缘北西向韧性剪切带为一级控矿构造,是区内铀矿热液运移的通道,而剪切带边部的晚期北东东向断裂则是铀矿储存空间;铀源可能来自于太古宙古风化壳,并在大型韧性剪切活动（提供热液运移通道）和基性脉岩侵入（提供热源和还原剂）等综合因素作用下运移、富集成矿。     

Pyroxenes of the Khibiny alkaline pluton, Kola Peninsula

Seven pyroxene varieties were identified in nepheline syenites and foidolites of the Khibiny pluton: enstatite, ferrosilite, diopside, hedenbergite, augite, aegirine-augite, and aegirine. Enstatite and augite are typical of alkaline and ultramafic rocks of dike series. Ferrosilite was found in country quartzitic hornfels. Diopside is a rock-forming mineral in alkaline and ultramafic rocks, alkali gabbroids, hornfels in xenoliths of volcanic and sedimentary rocks and foyaite, melteigite-urtite that assimilate them, and certain hydrothermal pegmatite veins. Hedenbergite was noted in hornfels from xenoliths of volcanic and sedimentary rocks and in a hydrothermal pegmatite vein at Mount Eveslogchorr. Aegirine-augite is the predominant pyroxene in all types of nepheline syenites, phonolites and tinguaites, foidolites, alkaline and ultramafic rocks of dike series, fenitized wall rocks surrounding the pluton, and xenoliths of Devonian volcanic and sedimentary rocks. Aegirine is an abundant primary or, more often, secondary mineral in nepheline syenites, foidolites, and hydrothermal pegmatite veins. It occurs as separate crystals, outer zones of diopside and aegirine-augite crystals, and homoaxial pseudomorphs after Na-Ca amphiboles. Microprobe analyses of 265 pyroxenes samples allowed us to distinguish ten principal trends of isomorphic replacement and corresponding typomorphic features of pyroxenes. Compositional variations in clinopyroxenes along the sampled 35-km profile from the margin of the Khibiny pluton to its center confirm the symmetric zoning of the foyaite pluton relative to semicircular faults of the Minor Arc and the Main (Central) Ring marked by Devonian volcanic and sedimentary rocks, foidolites, and related metasomatic rocks (rischorrite, albitite, and aegirinite). Changes in the composition of pyroxenes are explained mainly by the redistribution of elements between coexisting minerals of foyaites in the process of their intense differentiation under the effect of foidolite melts that have intruded into the circular fault zones.     

Mineral assemblages and genesis of hornfelses in the outer contact zone of the Khibina Massif, Kola Peninsula, Russia

The paper presents materials on the fabric of the western, southwestern, and southern exocontact zones of the Khibina alkaline pluton and metavolcanic rocks of the Il’mozerskaya Formation of the Paleoproterozoic Imandra-Varzuga riftogenic structure. The volcanics of the Imandra-Varzuga structure were originally metamorphosed to the greenschist facies (at temperatures of ≥300°C and pressures of ≥2.0–2.5 kbar) and were afterward metamorphosed to the pyroxene-hornfels facies under the thermal effect the Khibina pluton with the development of a hornfels zone 150–400 m thick. According to their composition, the hornfelses are subdivided into three zones: inner, intermediate, and outer. The inner zone is up to 30 m thick and consists of hornfelses of clinopyroxene-plagioclase composition with olivine as a typomorphic mineral and with variable amounts of amphibole. The intermediate zone occurs at a distance of 30–200 m from the pluton, is separated from the inner zone by the olivine isograde, and consists of amphibole-clinopyroxene-plagioclase hornfelses. The outer zone, 200–400 m away from the contact of the pluton, is made of fine-grained melanocratic hornblende hornfelses. The thermal transformations of the metavolcanics involved the gradual replacement of their low-temperature mineral assemblage (actinolite + albite) by a higher temperature one (clinopyroxene + amphibole + andesinebytownite ± olivine). Our data on the chemical composition of the rock-forming minerals of the hornfelses indicate that the olivine is ferrohortonolite-fayalite, the clinopyroxene belongs to the augite-ferroaugite series, and occasional orthopyroxene grains (which were found only in the intermediate zone) are ferrohypersthene. The amphibole in the hornfelses of the intermediate zone and the outermost (farthest from the contact) part of the inner zone is edenite, a Ca amphibole. The amphibole in hornfelses near the contact is kataphorite of the Na-Ca amphibole group. The plagioclase composition generally corresponds to andesine and bytownite and is albite-oligoclase near the contact with the pluton. The hornfelses adjacent to the contact bear rare sanidine grains. The mineral thermo-and barometry of the hornfelses yielded temperatures of 700–640°C and pressures of 1–1.5 kbar. The temperature determined for the zone exactly at the contact was approximately 700°C, which corresponds to the initial temperature of the rocks in contact with the magma and is close to the crystallization temperature of the nepheline syenites of the Khibina pluton.