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1.
Sara Abedi Mirna Slim Ronny Hofmann Taras Bryndzia Franz-Josef Ulm 《Acta Geotechnica》2016,11(3):559-572
The organic–inorganic nature of organic-rich source rocks poses several challenges for the development of functional relations that link mechanical properties with geochemical composition. With this focus in mind, we herein propose a method that enables chemo-mechanical characterization of this highly heterogeneous source rock at the micron and submicron length scale through a statistical analysis of a large array of energy-dispersive X-ray spectroscopy (EDX) data coupled with nanoindentation data. The ability to include elemental composition to the indentation probe via EDX is shown to provide a means to identify pure material phases, mixture phases, and interfaces between different phases. Employed over a large array, the statistical clustering of this set of chemo-mechanical data provides access to the properties of the fundamental building blocks of clay-dominated organic-rich source rocks. The versatility of the approach is illustrated through the application to a large number of source rocks of different origin, chemical composition, and organic content. We find that the identified properties exhibit a unique scaling relation between stiffness and hardness. This suggests that organic-rich shale properties can be reduced to their elementary constituents, with several implications for the development of predictive functional relations between chemical composition and mechanical properties of organic-rich source rocks such as the intimate interplay between clay-packing, organic maturity, and mechanical properties of porous clay/organic phase. 相似文献
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Christopher P. Bobko Benjamin Gathier J. Alberto Ortega Franz‐Josef Ulm Lavinia Borges Younane N. Abousleiman 《国际地质力学数值与分析法杂志》2011,35(17):1854-1876
An inverse micromechanics approach allows interpretation of nanoindentation results to deliver cohesive‐frictional strength behavior of the porous clay binder phase in shale. A recently developed strength homogenization model, using the Linear Comparison Composite approach, considers porous clay as a granular material with a cohesive‐frictional solid phase. This strength homogenization model is employed in a Limit Analysis Solver to study indentation hardness responses and develop scaling relationships for indentation hardness with clay packing density. Using an inverse approach for nanoindentation on a variety of shale materials gives estimates of packing density distributions within each shale and demonstrates that there exists shale‐independent scaling relations of the cohesion and of the friction coefficient that vary with clay packing density. It is observed that the friction coefficient, which may be interpreted as a degree of pressure‐sensitivity in strength, tends to zero as clay packing density increases to one. In contrast, cohesion reaches its highest value as clay packing density increases to one. The physical origins of these phenomena are discussed, and related to fractal packing of these nanogranular materials. Copyright © 2010 John Wiley & Sons, Ltd. 相似文献
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Nanomechanics of organic-rich shales: the role of thermal maturity and organic matter content on texture 总被引:2,自引:2,他引:0
Despite the importance of organic-rich shales, microstructural characterization and theoretical modeling of these rocks are limited due to their highly heterogeneous microstructure, complex chemistry, and multiscale mechanical properties. One of the sources of complexity in organic-rich shales is the intricate interplay between microtextural evolution and kerogen maturity. In this study, a suite of experimental and theoretical microporomechanics methods are developed to associate the mechanical properties of organic-rich shales both to their maturity level and to the organic content at micrometer and sub-micrometer length scales. Recent results from chemomechanical characterization experiments involving grid nanoindentation and energy-dispersive X-ray spectroscopy (EDX) are used in new micromechanical models to isolate the effects of maturity levels and organic content from the inorganic solids. These models enable attribution of the role of organic maturity to the texture of the indented material, with immature systems exhibiting a matrix-inclusion morphology, while mature systems exhibit a polycrystal morphology. Application of these models to the interpretation of nanoindentation results on organic-rich shales allows us to identify unique clay mechanical properties that are consistent with molecular simulation results for illite and independent of the maturity of shale formation and total organic content. The results of this investigation contribute to the design of a multiscale model of the fundamental building blocks of organic-rich shales, which can be used for the design and validation of multiscale predictive poromechanics models. 相似文献
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Traditional approaches for modeling the anisotropic elasticity response of the highly heterogeneous clay fabric in shale have mainly resorted to geometric factors such as definitions of particles shapes and orientations. However, predictive models based on these approaches have been mostly validated using macroscopic elasticity data. The recent implementation of instrumented indentation aimed at probing nano‐scale mechanical behaviors has provided a new context for characterizing and modeling the anisotropy of the porous clay in shale. Nanoindentation experimental data revealed the significant contribution of the intrinsic anisotropy of the solid clay to the measured elastic response. In this investigation, we evaluate both the effects of geometric factors and of the intrinsic anisotropic elasticity of the solid clay phase on the observed anisotropy of shale at multiple length scales through the development of a comprehensive theoretical micromechanics approach. It was found that among various combinations of these sources of anisotropy, the elastic response of the clay fabric represented as a granular ensemble of aligned effective clay particles with spherical morphology and anisotropic elasticity compares satisfactorily to nanoindentation and ultrasonic pulse velocity measurements at nano‐ and macroscopic length scales, respectively. Other combinations of sources of anisotropy could yield comparable predictions, particularly at macroscopic scales, at the expense of requiring additional experimental data to characterize the morphology and orientations of particles. Copyright © 2009 John Wiley & Sons, Ltd. 相似文献
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Natural composite materials are highly heterogeneous porous materials, with porosities that manifest themselves at scales
much below the macroscale of engineering applications. A typical example is shale, the transverse isotropic sealing formation
of most hydrocarbon bearing reservoirs. By means of a closed loop approach of microporomechanics modeling, calibration and
validation of elastic properties at multiple length scales of shale, we show that the nanogranular nature of this highly heterogeneous
material translates into a unique poroelastic signature. The self-consistent scaling of the porous clay stiffness with the
clay packing density minimizes the anisotropy of the Biot pore pressure coefficients; whereas the intrinsic anisotropy of
the elementary particle translates into a pronounced anisotropy of the Skempton coefficients. This new microporoelasticity
model depends only on two shale-specific material parameters which neatly summarize clay mineralogy and bulk density, and
which makes the model most appealing for quantitative geomechanics, geophysics and exploitation engineering applications. 相似文献
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红土中含铁离子物质的化学行为与力学效应 总被引:1,自引:0,他引:1
首先从地球化学理论上分析了铁离子的化学行为力学效应及其方向性,然后通过试验,研究了不同环境水溶液化学作用后的红层黏性土和冲积黏性土中铁离子的化学行为对土体的力学效应及其特性。试验结果表明:(1)含铁离子物质与水作用后的化学行为确实存在正反两方面的双向性力学效应;(2)含铁离子物质的双向性力学效应受环境水溶液的pH值和化学成分的控制;(3)酸性水溶液使含铁离子物质的胶结作用增强,使红土强度提高,形成正方向的力学效应;而碱性水溶液使含铁离子物质的胶结作用降低,形成负方向的力学效应。 相似文献
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上扬子区下寒武统牛蹄塘组页岩是我国南方地区页岩气重要勘探层系之一。通过露头、岩心、薄片、实验测试等资料综合分析,识别了该套页岩岩相类型及相关沉积作用方式,在水体氧化还原条件演变规律分析基础上总结了其沉积演化模式。牛蹄塘组页岩共包含6类岩相:富有机质硅质页岩、含粉砂硅质页岩、粉砂质页岩、黏土质页岩、泥质钙质页岩及粉砂质钙质页岩,主要体现为5种沉积作用方式:砂质机械沉积、钙质化学沉积、硅质生物沉积、泥质絮凝沉积及底流改造沉积。从底到顶,该套页岩表现为一套水体变浅的进积型演化序列,水体还原程度减弱,有机质保存条件变差。牛蹄塘组下段沉积期,盆地相区和陆棚相区分别以硅质生物沉积和钙质化学沉积为主,主体岩相类型为硅质页岩和钙质页岩;上段沉积期,盆地相区和陆棚相区分别以泥质絮凝沉积和砂质机械沉积为主,主体岩相类型为黏土质页岩和粉砂质混合质页岩。提出的牛蹄塘组页岩岩相发育模式及沉积演化规律能为研究区优质页岩的分布预测及页岩气勘探选区评价提供理论依据。 相似文献
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Homogenisation techniques have been successfully used to estimate the mechanical response of synthetic composite materials, due to their ability to relate the macroscopic mechanical response to the material microstructure. The adoption of these mean-field techniques in geo-composites such as shales is attractive, partly because of the practical difficulties associated with the experimental characterisation of these highly heterogeneous materials. In this paper, numerical modelling has been undertaken to investigate the applicability of homogenisation methods in predicting the macroscopic, elastic response of clayey rocks. The rocks are considered as two-level composites consisting of a porous clay matrix at the first level and a matrix-inclusion morphology at the second level. The simulated microstructures ranged from a simple system of one inclusion/void embedded in a matrix to complex, random microstructures. The effectiveness and limitations of the different homogenisation schemes were demonstrated through a comparative evaluation of the macroscopic elastic response, illustrating the appropriate schemes for upscaling the microstructure of shales. Based on the numerical simulations and existing experimental observations, a randomly distributed pore system for the micro-structure of porous clay matrix has been proposed which can be used for the subsequent development and validation of shale constitutive models. Finally, the homogenisation techniques were used to predict the experimental measurements of elastic response of shale core samples. The developed methodology is proved to be a valuable tool for verifying the accuracy and performance of the homogenisation techniques. 相似文献
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通过野外采样、化学分析、电子探针(EPMA)和X射线衍射(XRD)分析等手段,研究了贵州织金地区黑色页岩矿物成分、化学组分、微量元素、稀土元素特征。研究区矿样化学成分以SiO_2和Al_2O_3为主,且具有高K低Na的特征。电子探针和X射线衍射分析表明,研究区黑色页岩主要矿物组成有石英、粘土矿物、白云石及黄铁矿等。织金黑色页岩中Pb、Ni、U、V、Cr等金属元素存在不同程度的富集,稀土元素总量为153.2×10~(-6)~224.89×10~(-6),属轻稀土元素富集型。同时从多金属层、页岩气、页岩提钾及近底部含磷铀矿资源等方面讨论了织金黑色页岩资源化利用。织金黑色页岩多金属层含有Mo、V、Ni、Ag及U等多金属元素,具综合利用价值;其中有机碳含量达到页岩气开发大于2%的条件,可进一步开展研究;页岩中伊利石含量较多,可提取黑色页岩中的钾制备含钾复合肥;黑色页岩底部与磷矿层接触带产出磷铀矿,主要为胶状磷铀矿,接触带可作为铀矿找矿的标志层。 相似文献
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页岩陶粒是一种以具有自膨胀性能的页岩或板岩为唯一原料加工制备的保温隔热矿物功能材料和轻质多孔基础材料.在介绍重庆大巴山超大型陶粒页岩矿产资源地质特征基础上,采用多种现代检测技术和与国内同类原料对比方法,研究了代表性陶粒页岩和生产试验样品的矿物材料学特征,结果表明:重庆大巴山城口—巫溪是优质陶粒页岩矿产资源的集中分布区,... 相似文献
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页岩中含有一定量的黏土矿物,在与水基压裂液接触后会表现出与泥岩相同的膨胀特性和强度弱化效应,进而引起套管外载增加,在页岩储层压裂过程中套管出现不同程度的变形问题。以渝东北地区龙马溪组页岩为研究对象,开展不同溶液体系下页岩的自吸、膨胀特性物理实验,分析页岩水化对其岩石力学特性的影响。结果表明:页岩吸水量与时间呈对数递增关系,在不同溶液体系中,吸水量大小表现为蒸馏水 > 地层水 > 滑溜水,含有减阻剂浓度小的滑溜水体系更利于减弱页岩的吸水能力;页岩膨胀率与时间呈逐渐增长趋势,黏土矿物含量、围压和溶液体系对页岩膨胀率影响明显,相对于黏土含量,围压对膨胀率影响更加明显,页岩在溶液体系中的膨胀性能表现为蒸馏水 > 地层水 > 滑溜水;页岩的抗压强度和弹性模量都随着水化时间的增加整体呈线性递减规律。研究结果对完井过程套管强度设计具有一定的指导意义。 相似文献
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Kou Hailei Jing Hao Wu Chuangzhou Ni Pengpeng Wang Yiyi Horpibulsuk Suksun 《Acta Geotechnica》2022,17(5):1859-1877
Improving the engineering properties of low-strength soft clay in an environmentally friendly way becomes a challenge in coastal areas. Conventional ground treatment techniques for marine clay using cement can cause significant environmental pollution. In this study, the potential use of industrial waste residue-based binder (IWRB), a silicate-based chemical modified by a powdery polymer, as a substitute for Portland cement (PC) is investigated. Collected marine clay was treated with various IWRB-to-PC ratios (0:8, 4:4, 2:6 and 8:0 wt. %) to measure the mechanical properties, through unconfined compression (UC) test and one-dimensional consolidation (ODC) test, and the microstructural and mineralogical characters, through scanning electron microscopy (SEM), X-ray diffraction (XRD), thermogravimetry analysis (TGA) and Fourier transform infrared spectroscopy (FT-IR). The strength and the deformation of specimens treated with mixed IWRB and PC in a ratio of 1:1 were similar to those improved with PC alone, but the toughness was significantly improved. The microstructural results demonstrated that the cementitious compounds (C–S–H and C–A–S–H) increased significantly in the early curing stage of marine clay treated with IWRB, contributing to the improvement of mechanical properties. It is suggested that IWRB can be an effective substitute for PC to reduce the cost and environmental pollution.
相似文献14.
A micro-mechanics-based elastic–plastic model is proposed to describe mechanical behaviors of porous rock-like materials. The porous rock is considered as a composite material composed of a solid matrix and spherical pores. The effective elastic properties are determined from the classical Mori–Tanaka linear homogenization scheme. The solid matrix verifies a pressure-dependent Mises–Schleicher-type yield criterion. Based on the analytical macroscopic yield criterion previously determined with a nonlinear homogenization procedure (Shen et al. in Eur J Mech A/Solids 49:531–538, 2015), a complete elastic–plastic model is formulated with the determination of a specific plastic hardening law and plastic potential. The micro-mechanics-based elastic–plastic model is then implemented for a material point in view of simulations of homogeneous laboratory tests. The proposed model is applied to describe mechanical behaviors of two representative porous rocks, sandstone and chalk. Comparisons between numerical results and experimental data are presented for triaxial compression tests with different confining pressures, and they show that the micro-mechanical model is able to capture main features of mechanical behaviors of porous rock-like rocks. 相似文献
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页岩储层通常呈薄层状结构,一般认为其岩石力学参数具有横向各向同性,而其各向异性受围压(CP)、含水率和总有机质含量(TOC)等多种因素的影响。本文对不同围压下的鹰滩(Eagle Ford)页岩进行超声波波速进行测试实验,研究围压对鹰滩页岩波速及岩石力学各向异性的影响。实验结果表明,鹰滩页岩属于弱各向异性多孔介质,并具有横向各向同性、垂向各向异性的性质。纵波(P波)和横波(S波)波速随围压的增大而增大,特别是在低围压范围内增幅显著,同时围压增大会降低纵波和横波的各向异性,纵波各向异性比横波各向异性对围压更敏感。对鹰滩页岩各向异性分析为页岩储层压裂过程中裂缝的起裂和延伸规律研究提供了必要的力学参数。 相似文献
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页岩气储集空间与储层矿物特征关系密切,以四川盆地东缘龙马溪组页岩为研究对象,利用矿物组成、微量元素、地球化学等测试结果,结合低温氮气吸附法和高分辨率成像技术,采用多元统计分析方法,建立了页岩孔容预测方程,并分析孔隙分布特征和影响因素。结果表明,龙马溪组中部和底部页岩组分含量差异较大,生物成因的自生石英发育是龙马溪组底部石英含量高的主要原因;页岩纳米级孔隙以2~5 nm为主,对孔容贡献率介于64.2%~70.1%;建立的页岩组分含量与孔容的预测模型高度显著。脆性矿物孔、黏土矿物片间孔及其粒内孔是富黏土矿物页岩的主要孔隙类型,孔隙呈微缝状,小于2 nm孔隙不发育;有机质含量是富有机质页岩孔容大小的主控因素,有机质孔的面孔率介于8.8%~12.5%;有机质含量及成熟度是小于2 nm微孔发育的主控因素,大于50 nm孔隙的发育则受控于黏土矿物、石英及长石含量。 相似文献
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为评价SH固土剂的固化作用及对盐渍土的固化效果,分别完成了固化前后蒙脱石、高岭石、石英砂、盐渍土的X射线衍射与红外光谱测试、4种固化土的实体显微镜和偏光显微镜观察、固化前后盐渍土的扫描电镜微观观察,以及固化盐渍土的力学性能测试与冻融实验。实验结果表明:4种固化土的X射线衍射谱图和红外光谱图与固化前的吻合;各固化土的矿物成分没有发生改变,SH固土剂的官能团与黏土矿物均未发生化学键的结合,没有生成新相物质;SH固土剂干燥后形成弹性立体丝网,将土颗粒黏结在一起,提高了固化土的强度;固土剂填塞部分孔隙,减小了土的孔隙度;SH固土剂包裹土颗粒,增强了土的憎水性。固化盐渍土的力学性能测试和冻融实验结果证实,掺加SH固土剂提高了土的强度与抗变形性能、水稳性、抗渗性和抗冻融性能。SH固土剂与黏土矿物及盐渍土未发生化学反应,固化土力学性能的提高为固土剂的物理作用所致。 相似文献
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云南东川蒋家沟泥石流形成内因初探 总被引:6,自引:2,他引:4
泥石流形成的因素众多,不仅与地形地貌、降雨特征、地震、人类活动等外部因素有关,还与泥石流岩土体自身的黏土矿物成分、颗粒级配、化学成分、土体分散性、地下水环境等内部因素密切相关。在室内对蒋家沟泥石流源区土体进行黏土矿物分析、颗粒分析、化学成分定量分析、分散度和ESP值测试、地下水分析,初步探讨了蒋家沟泥石流形成的内在原因,得到:蒋家沟泥石流体的黏土矿物成分以伊利石为主,占30 %,其化学成分也与伊利石接近;ESP值、分散度平均值分别达到24.6 %、59.1 %,属于高分散性土,且土壤贫瘠;地下水矿化度高,硬度大,破坏了岩土体自身的结构和稳定性,形成大量松散物质,为泥石流的形成提供丰富的物源。 相似文献