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1.
炭质页岩巴西劈裂载荷下破坏过程的时空特征研究 总被引:1,自引:0,他引:1
页岩在加载过程中的破裂时机及其空间位置研究对于页岩气探测及储层评价具有重要意义,为此开展了不同层理倾角条件下页岩的巴西圆盘劈裂载荷下的破坏过程试验,采用数字图像相关技术(DIC),全程跟踪页岩裂纹萌生、扩展和贯通全过程的变形场实时演化特征,同时记录力-位移曲线,利用扫描电镜获得炭质页岩的破裂面特征及微观结构,采用宏、细观相结合的手段,研究不同层理方向炭质页岩微裂缝起裂时间、空间位置和扩展规律及其破裂机制。结果表明:页岩的巴西劈裂强度随层理方向与加载方向角度的增大而逐渐增大;随加载方向与层理面夹角的增加,裂缝萌生的时间逐渐增加,而裂缝从萌生、扩展到贯通所用时间逐渐减少。所有角度试件基本从试件端部萌生裂缝并沿层理面扩展,除90°试件外,不同层理倾角试样主裂缝破裂的位置逐渐偏离中心位置而向试件外侧发展。各角度试件主破坏类型存在一定差异性,除90°试件竖向主裂缝为张拉破坏外,随加载方向与层理面夹角的增加,各加载角度试件的主破裂模式从张拉剪切破坏逐渐过渡为剪切滑移破坏。 相似文献
2.
岩石内部细观裂纹的存在,对压缩作用下岩石剪切断裂的宏观现象有着重要的影响。然而,能够通过解析解阐释细观裂纹几何特性、围压等影响因素对压缩作用下剪切断裂面角度变化趋势的研究很少。基于Ashby模型中提出的裂纹尖端应力强度因子,提出了一种改进的考虑裂纹角度影响的应力强度因子表达式。利用该改进的应力强度因子表达式,推出了一个可以预测岩石峰值强度的裂纹扩展、应变与应力之间的本构关系。结合本构关系的峰值强度与摩尔-库仑失效准则,得到了岩石损伤与内摩擦角、黏聚力、剪切强度及失效断裂面角度之间的理论关系;讨论了围压、裂纹尺寸、角度及摩擦系数对岩石宏观剪切断裂面角度的影响,通过试验结果验证了模型合理性。结果表明:随着损伤增大,内摩擦角、黏聚力及剪切强度不断减小;随着围压增大、摩擦系数增大和初始裂纹尺寸减小,剪切断裂面角度不断增大;随着裂纹角度增大,剪切断裂纹面角度先减小后增大。 相似文献
3.
三轴压缩条件下冻融单裂隙岩样裂缝贯通机制 总被引:1,自引:0,他引:1
采用岩石力学伺服试验机,对预制单裂隙模型试样进行冻融循环后的三轴压缩试验,基于冻融循环试验对裂隙岩体的冻融损伤劣化模式进行研究,探讨经历不同冻融循环次数后的裂隙岩样在三轴压缩条件下裂缝的贯通机制。试验发现:裂隙岩体的冻融损伤劣化模式有颗粒散落模式、龟裂模式和沿预制裂隙断裂模式3种;在三轴加载条件下,冻融裂隙岩样的贯通模式呈现拉贯通、剪贯通、压贯通和混合贯通4种;贯通模式和冻融循环次数、围压的大小以及裂隙倾角有关,随着冻融循环次数的增加和围压的升高,岩样表面的破裂线越来越多,导致裂纹的贯通模式由单一贯通转换为混合贯通,在围压为2、6 MPa时,岩样的破坏模式为拉-压贯通,而围压为4 MPa时,岩样主要呈现拉贯通,裂隙倾角为30°的岩样主要贯通模式为拉贯通,裂隙倾角为60°的岩样主要贯通模式为剪贯通。 相似文献
4.
Numerical modeling of hydraulic fracture propagation,closure and reopening using XFEM with application to in‐situ stress estimation 
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下载免费PDF全文 In this paper, a fully coupled model is developed for numerical modeling of hydraulic fracturing in partially saturated weak porous formations using the extended finite element method, which provides an effective means to simulate the coupled hydro‐mechanical processes occurring during hydraulic fracturing. The developed model is for short fractures where plane strain assumptions are valid. The propagation of the hydraulic fracture is governed by the cohesive crack model, which accounts for crack closure and reopening. The developed model allows for fluid flow within the open part of the crack and crack face contact resulting from fracture closure. To prevent the unphysical crack face interpenetration during the closing mode, the crack face contact or self‐contact condition is enforced using the penalty method. Along the open part of the crack, the leakage flux through the crack faces is obtained directly as a part of the solution without introducing any simplifying assumption. If the crack undergoes the closing mode, zero leakage flux condition is imposed along the contact zone. An application of the developed model is shown in numerical modeling of pump‐in/shut‐in test. It is illustrated that the developed model is able to capture the salient features bottomhole pressure/time records exhibit and can extract the confining stress perpendicular to the direction of the hydraulic fracture propagation from the fracture closure pressure. Copyright © 2016 John Wiley & Sons, Ltd. 相似文献
5.
泥页岩储层岩石力学特性及脆性评价 总被引:7,自引:0,他引:7
泥页岩储层的岩石力学特性对油气开发影响极大,进行泥页岩力学特性和脆性评价方面的研究,可以为泥页岩油钻井和压裂设计工作提供技术支撑。实验研究表明,泥页岩抗压强度与围压、杨氏模量成正相关;体积应变量随杨氏模量减小而增大,随泊松比增加而增加;泥页岩破坏在低围压下以劈裂式破坏为主,高围压时多出现剪切式破坏。泥页岩的脆性与其弹性参数和矿物组成关系密切,通过数值模拟和实验测量,综合弹性参数和矿物组分两种方法提出了一种新的脆性评价方法-弹性参数与矿物成分组合法(EP&MC Method),并实现了单井脆性评价,效果较好。脆性评价既是储层岩石力学特性分析的重要内容,也是压裂选层的重要依据。 相似文献
6.
Closed‐loop, servo‐controlled experiments were conducted to investigate the development of a shear band in Berea sandstone at various confining pressures. The tests were performed with the University of Minnesota Plane‐Strain Apparatus, which was designed to allow the shear band to develop in an unrestricted manner. Measured load and displacements provided estimates of the stress and deformation states whereby dilatancy and friction were evaluated prior to localization. Experiments were stopped at various stages of shear‐band development within the strain‐softening regime. The specimens displayed a progression of deformation from inception, where the shear band was characterized by a high density of intragranular microcracks and crushed grains, to the tip where the intragranular microcracks were significantly less dense and separated by intact grains. Decreased slip deformation towards the tip of the shear band indicated that localization developed and propagated in plane. Thin‐section microscopy showed porosity increase within the shear band was 3–4 grain diameters wide. Increased porosity did not extend beyond the tip of the shear band. A cohesive zone model of shear fracture, used to examine the stress field near the tip, showed similarities to principal compressive stress orientations interpreted from intragranular microcracks. Thus, propagation of the shear band could be associated with in‐plane mode II fracture. Copyright © 2006 John Wiley & Sons, Ltd. 相似文献
7.
为了研究双轴压缩下预制裂隙岩样宏细观力学行为及裂纹扩展模式,采用颗粒流程序(PFC)先分析平行粘结模型细观参数对宏观参数的影响,接着结合完整花岗岩常规三轴压缩试验结果对其细观参数进行标定,最后借助该组参数模拟有围压下预制裂隙(上裂隙①和下裂隙②)岩样的力学特性。研究表明:基于PFC程序和标定的参数能较好地模拟完整岩样的破坏情况;随着围压增大,双裂隙岩样的峰值强度和弹性模量均增大,且裂隙②与水平向夹角α2为90°时,两者均达到最大值;不同的α2下,各岩样的裂纹演化均经过裂纹萌生、发展和稳定等3个阶段;随着围压的降低和轴向应力的增大,颗粒间的力链破坏情况愈严重。由于拉伸力链的集中和分布不同,水平裂隙长度方向上的裂纹沿着轴向扩展,且两裂隙的贯通呈现不同方式。 相似文献
8.
岩石裂纹的扩展是一个经典的不连续问题,常规有限元方法难以实现裂纹扩展过程的仿真模拟。扩展有限元法(XFEM)实现了计算网格与不连续面相互独立,因此模拟移动的不连续面时无需对网格进行重新剖分。本文介绍了XFEM基本原理和岩石断裂力学常用判据,尝试对岩石类材料单缝Ⅰ型三点弯曲、单缝剪切和双缝平板实验进行模拟。分析结果表明:扩展有限元模拟岩石类材料断裂问题不受网格划分限制,裂纹以实际应力场分布随机扩展;直观地给出岩样的微裂纹产生、演化,直至完全破坏的全过程,并与实验结果吻合。该方法能够应用到岩石断裂力学方面的研究,模拟岩石类材料的宏细观破坏过程,为解决复杂问题提供了方便的途径。 相似文献
9.
Crack damage evolution of shale is crucial to the hydraulic fracturing treatment and engineering stability. Although many effects have been done on the macroscopic characteristics of shale, yet the microscopic failure mechanism is not well understood. A uniaxial compressive test on black shale was conducted under topographic monitoring using in situ X-ray micro-tomography (µCT). A series of high-resolution reconstruction images were obtained by carrying out CT scans at six key points throughout the test to obtain the internal structure of shale sample. In addition, the CT values for the purpose of crack damage evolution in shale were identified. Clear 2D/3D CT images, CT value analysis and image segmentation analysis reveal that the sample experiences compression, damage, cracking, crack propagation, and collapse stages. Crack geometry and distribution in the shale sample is visualized by rendered CT images, and a combined tension and shear failure mode is observed from the fracture rose diagram. This work suggests that formation and propagation of fractures are influenced by the stratified structure and weak cementation medium between layers. 相似文献
10.
泥页岩单轴抗压破裂特征及UCS影响因素 总被引:2,自引:0,他引:2
正确认识泥页岩单轴抗压破裂特征及UCS影响因素对探究泥页岩破裂机制、钻完井设计、压裂评价、微裂缝预测、测井解释及地震响应等方面均具有重要参考价值。本文在对国内外近些年有关泥页岩单轴抗压及UCS研究系统调研及近期研究成果全面分析基础上,对泥页岩破裂特征及UCS影响因素进行了综合分析。研究结果表明,泥页岩单轴加载曲线的非弹性段变形机制受微裂缝的滑动、新微裂缝的产生、扩展及孔隙坍塌的综合影响。泥页岩单轴抗压破裂呈张性或张剪性,张性破裂易发生于刚度较高、固结程度较强的部位;而剪性破裂易发生于刚度较低、固结程度较弱的部位。S型破裂准则可以较为准确的描述泥页岩从单轴到三轴发生破裂时所对应的强度变化。从地质学角度,对影响泥页岩UCS的因素进行了归纳,分别为矿物组成、层理面角度、分选性、微组构、有机质含量及分布、孔隙度、水分、微裂缝8方面因素,详细分析了不同影响因素的影响机制。在这些影响因素中,微裂缝由于分布特征复杂,其对泥页岩单轴抗压破裂及UCS的影响机制研究尚不深入。因此建议未来应加强泥页岩微裂缝参数的定量化研究,从微观尺度研究微裂缝对泥页岩单轴抗压破裂的具体影响机制,该研究可以为页岩油气勘探、开发提供科学指导。 相似文献
11.
In this paper, a mathematical model is presented for the analysis of dynamic fracture propagation in the saturated porous media. The solid behavior incorporates a discrete cohesive fracture model, coupled with the flow in porous media through the fracture network. The double‐nodded zero‐thickness cohesive interface element is employed for the mixed mode fracture behavior in tension and contact behavior in compression. The crack is automatically detected and propagated perpendicular to the maximum effective stress. The spatial discretization is continuously updated during the crack propagation. Numerical examples from the hydraulic fracturing test and the concrete gravity dam show the capability of the model to simulate dynamic fracture propagation. The comparison is performed between the quasi‐static and fully dynamic solutions, and the performance of two analyses is investigated on the values of crack length and crack mouth opening. Copyright © 2010 John Wiley & Sons, Ltd. 相似文献
12.
Two-dimensional hydraulic fracturing simulations using the cohesive zone model (CZM) can be readily found in the literature; however, to our knowledge, verified 3D cohesive zone modeling is not available. We present the development of a 3D fully coupled hydro-mechanical finite element method (FEM) model (with parallel computation framework) and its application to hydraulic fracturing. A special zero-thickness interface element based on the CZM is developed for modeling fracture propagation and fluid flow. A local traction-separation law with strain softening is used to capture tensile cracking. The model is verified by considering penny-shaped hydraulic fracture and plain strain Kristianovich‑Geertsma‑de Klerk hydraulic fracture (in 3D) in the viscosity- and toughness-dominated regimes. Good agreement between numerical results and analytical solutions has been achieved. The model is used to investigate the influence of rock and fluid properties on hydraulic fracturing. Lower stiffness tip cohesive elements tend to yield a larger elastic deformation around the fracture tips before the tensile strength is reached, generating a larger fracture length and lower fracture pressure compared with higher stiffness elements. It is found that the energy release rate has almost no influence on hydraulic fracturing in the viscosity-dominated regime because the energy spent in creating new fractures is too small when compared with the total input energy. For the toughness-dominated regime, the released energy during fracturing should be accurately captured; relatively large tensile strength should be used in order to match numerical results to the asymptotic analytical solutions. It requires smaller elements when compared with those used in the viscosity-dominated regime. 相似文献
13.
In this article, we investigate the main parameters that influence the propagation of a fluid‐driven fracture in a poroelastoplastic continuum. These parameters include the cohesive zone, the stress anisotropy, and the pore pressure field. The fracture is driven in a permeable porous domain that corresponds to weak formation by pumping of an incompressible viscous fluid at the fracture inlet under plane strain conditions. Rock deformation is modeled with the Mohr–Coulomb yield criterion with associative flow rule. Fluid flow in the fracture is modeled by the lubrication theory. The movement of the pore fluid in the surrounding medium is assumed to obey the Darcy law and is of the same nature as the fracturing fluid. The cohesive zone approach is used as the fracture propagation criterion. The problem is modeled numerically with the finite element method to obtain the solution for the fracture length, the fracture opening, and the propagation pressure as a function of the time and distance from the pumping inlet. It is demonstrated that the plastic yielding that is associated with the rock dilation in an elastoplastic saturated porous continuum is significantly affected by the cohesive zone characteristics, the stress anisotropy, and the pore pressure field. These influences result in larger fracture profiles and propagation pressures due to the larger plastic zones that are developing during the fracture propagation. Furthermore, it is also found that the diffusion process that is a major mechanism in hydraulic fracture operations influences further the obtained results on the fracture dimensions, plastic yielding, and fluid pressures. These findings may explain partially the discrepancies in net pressures between field measurements and conventional model predictions. Copyright © 2012 John Wiley & Sons, Ltd. 相似文献
14.
Frédéric Dufour Grégory Legrain Gilles Pijaudier‐Cabot Antonio Huerta 《国际地质力学数值与分析法杂志》2012,36(16):1813-1830
Damage models are capable of representing crack initiation and mimicking crack propagation within a continuum framework. Thus, in principle, they do not describe crack openings. In durability analyses of concrete structures however, transfer properties are a key issue controlled by crack propagation and crack opening. We extend here a one‐dimensional approach for estimating a crack opening from a continuum‐based finite element calculation to two‐dimensional cases. The technique operates in the case of mode I cracking described in a continuum setting by a nonlocal isotropic damage model. We used the global tracking method to compute the idealized crack location as a post‐treatment procedure. The original one‐dimensional problem devised in Dufour et al. [4] is recovered as profiles of deformation orthogonal to the idealized crack direction are computed. An estimate of the crack opening and an error indicator are computed by comparing finite element deformation profiles and theoretical profiles corresponding to a displacement discontinuity. Two estimates have been considered: In the strong approach, the maxima of the profiles are assumed to be equal; in the weak approach, the integrals of each profile are set equal. Two‐dimensional numerical calculations show that the weak estimates perform better than do the strong ones. Error indicators, defined as the distance between the numerical and theoretical profiles, are less than a few percentages. In the case of a three‐point bending, test results are in good agreement with experimental data, with an error lower than 10% for widely opened crack (> 40µm). Copyright © 2011 John Wiley & Sons, Ltd. 相似文献
15.
基于粘结和摩擦特性的岩石变形与破坏的研究 总被引:7,自引:0,他引:7
就微观结构而言,矿物颗粒之间或相互粘结或相互分离,Coulomb准则的粘结力和内摩擦力在局部不能同时存在.粘结力是在变形作用下丧失的,材料丧失粘结力之后通过摩擦承载.若承载能力降低,屈服破坏仅在局部断面发生,具有脆性特征;反之将发生分布的屈服破坏,具有延性特征.围压增加可以使裂隙能够承载的摩擦力超过岩石材料的粘结力,那么当轴向应力增加到粘结力时,材料发生剪切屈服产生塑性变形,而摩擦力不会增加到其最大值,裂隙也不发生滑移.利用摩擦的概念可以理解不同岩石的变形、承载和破坏随围压变化的特征. 相似文献
16.
In quasi‐brittle material the complex process of decohesion between particles in microcracks and localization of the displacement field into macrocracks is limited to a narrow fracture zone, and it is often modelled with cohesive crack models. Since the anisotropic nature of the decohesion process in separation and sliding is essential, it is particularly focused in this paper. Moreover, for cyclic and dynamic loading the unloading, load reversal (including crack closure) and rate dependency are essential features that are included in a new model. The modelling of degradation is based on a ‘localized’ version of anisotropic continuum damage coupled to inelasticity. The concept of strain energy equivalence between the states in the effective and nominal settings is adopted in order to define the free energy of the interface. The proposed fracture criterion is of the Mohr type, with a smooth transition of the failure and kinematics (slip and dilatation) characteristics between tension and shear. The chosen potential, of the Lemaitre‐type, for evolution of the dissipative processes is additively decomposed into plastic and damage parts, and non‐associative constitutive equations are obtained. The constitutive equations are integrated by applying the backward Euler rule and by using Newton iteration. The proposed model is assessed analytically and numerically and a typical calibration procedure for concrete is proposed. Copyright © 2006 John Wiley & Sons, Ltd. 相似文献
17.
岩体内裂隙等非连续结构面对岩体的强度及变形等力学特性有着显著的影响,研究岩体裂隙起裂、扩展、相互作用和贯通机制,对工程岩体力学行为的表征和工程性能的评价十分重要。本文基于连续介质力学模型的离散元方法,通过考虑裂隙分布、模型加载条件及其与裂隙产状的关系,建立了一系列裂隙力学计算模型,研究了不同模型裂隙扩展演化特征和岩体破裂机制,分析了岩体裂隙扩展规律及其对岩体破坏路径和强度的影响,研究结果表明:(1)裂隙岩体模型加载条件下的破坏起裂点、最终贯通破坏特征及损伤分布受控于裂隙的产状及其与最大主压应力取向角度大小及围压大小。(2)裂隙弱面走向与最大主压应力取向斜交时,裂隙弱面在加载条件下其端部裂隙扩展、贯通破坏表现比较明显,反之,当裂隙弱面走向与最大主压应力取向一致时,裂隙弱面被动影响裂隙模型内新生裂隙的萌生、扩展和贯通模式,自身未出现新的扩展破坏。(3)裂隙数目的增多和围压的增大会显著增加模型内部剪切裂缝的数量和模型破坏后的破碎程度,模型内部的损伤区域主要围绕破裂面呈滑移线型交叉分布,非破裂面区域损伤呈条带状X型分布。(4)裂隙弱面走向与最大主压应力取向斜交时,裂隙对岩体模型强度的弱化程度高于裂隙弱面走向与最大主压应力取向一致的情况,而裂隙模型破坏后的残余强度则正好相反。 相似文献
18.
This paper develops a practical approach to simulating fracture propagation in rock and concrete based on an augmented virtual internal bond (VIB) method in which the cohesion of solid is modeled as material particles interconnected by a network of randomized virtual micro bonds described by the Xu–Needleman potential. The micro bond potential is used to derive macroscale constitutive relations via the Cauchy–Born rule. By incorporating different energy contributions due to stretch and shearing, as well as different energy levels under tension and compression of each micro bond, the derived macro constitutive laws are particularly useful for modeling quasi‐brittle materials such as rock and concrete which usually have different Poisson ratios and much higher compressive strength than tensile strength. The mesh‐size sensitivity associated with strain‐softening in the present constitutive model is addressed by adjusting material constants near the crack tip so that the biJ‐integral is kept equal to the intrinsic fracture energy of the material. Numerical examples demonstrate that the proposed VIB method is capable of simulating mixed mode fracture propagation in rock and concrete with results in consistency with relevant experimental observations. Copyright © 2011 John Wiley & Sons, Ltd. 相似文献
19.
This paper investigates the possibility of interpreting progressive shear failure in hard soils and soft rocks as the result of shear propagation of a pre‐existing natural defect. This is done through the application of the principles of fracture mechanics, a slip‐weakening model (SWM) being used to simulate the non‐linear zone at the tips of the discontinuity. A numerical implementation of the SWM in a computation method based on the boundary element technique of the displacement discontinuity method (DDM) is presented. The crack and the non‐linear zone at the advancing tip are represented through a set of elements, where the displacement discontinuity (DD) in the tangential direction is determined on the basis of a friction law. A residual friction angle is assumed on the crack elements. Shear resistance decreases on elements in the non‐linear zone from a peak value at the tip, which is characteristic of intact material, to the residual value. The simulation of a uniaxial compressive test in plane strain conditions is carried out to exemplify the numerical methodology. The results emphasize the role played by the critical DD on the mechanical behaviour of the specimen. A validation of the model is shown through the back analysis of some experimental observations. The results of this back analysis show that a non‐linear fracture mechanics approach seems very promising to simulate experimental results, in particular with regards to the shear band evolution pattern. Copyright © 2009 John Wiley & Sons, Ltd. 相似文献
20.
为了有效地模拟连续介质向非连续介质的转化,发展了一种拉格朗日元方法、变形体离散元方法及虚拟裂纹模型耦合且考虑四边形单元沿对角线开裂的连续—非连续方法。利用该方法,模拟了不同围压时含孔洞模型的变形—开裂过程,统计了拉裂缝及剪裂缝区段数目,监测了一些单元的最大主应力。研究结果表明:当围压较小时,初始拉裂缝首先出现在孔洞的顶、底部,然后向模型的上、下端扩展,在初始拉裂缝的左、右两侧的拉应力集中区中产生远场拉裂缝,随后在孔洞的左、右两侧出现剪裂缝,最后,剪裂缝贯穿模型;当围压较大时,远场拉裂缝数量较少,未充分发展,远场拉裂缝与剪裂缝的发展阶段的界限不分明。含孔洞模型的最大承载力的下降是由于孔洞左、右两侧的剪裂缝向外扩展造成的。随着围压的增加,开始出现初始拉裂缝的时步数目增大,初始拉裂缝两侧的远场拉裂缝数目变少、出现变晚。 相似文献