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Analysis of strength and moduli of jointed rocks 总被引:1,自引:0,他引:1
This paper deals with two aspects of jointed rock mass behavior, first the finite element modeling of a jointed rock mass as an equivalent continuum, second the comparison of empirical strength criteria of a jointed rock mass. In finite element modeling the jointed rock properties are represented by a set of empirical relationships, which express the properties of the jointed medium as a function of joint factor and the properties of the intact rock. These relationships have been derived from a large set of experimental data of tangent elastic modulus. It is concluded that equivalent continuum analysis gives the best results for both single and multiple jointed rock. The reliability of the analysis depends on the estimation of joint factor, which is a function of the joint orientation, joint frequency and joint strength.Empirical strength criteria for jointed rocks, namely Hoek and Brown, Yudhbir et al., Ramamurthy and Arora, Mohr–Coulomb have been incorporated in a nonlinear finite element analysis of jointed rock using the equivalent continuum approach, to determine the failure stress. The major principal stress at failure, obtained using Ramamurthy's criteria, compares very well with experimental results. 相似文献
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The strength and deformability of rock masses transected by non-persistent joints are controlled by complex interactions of joints and intact rock bridges. The emergence of synthetic rock mass (SRM) numerical modelling offers a promising approach to the analysis of rock masses, but has not been rigorously compared with actual physical experiments. In this work, SRM modelling by the discrete element software PFC3D is used to investigate the effect of geometric parameters of joints on the rock mass failure mechanism, unconfined compressive strength and deformation modulus. Firstly, a validation study is undertaken to investigate the ability of SRM modelling to reproduce rock mass failure modes and strength as determined by uniaxial and biaxial compression testing in the laboratory. The numerical analyses agree well with physical experimentation at low confining pressure. A sensitivity study is then undertaken of the effect of joint configuration parameters on the failure mode, unconfined compressive strength and deformation modulus of the rock mass. Five failure modes are predicted to occur: intact rock, planar, block rotation, step-path and semi-block generation. It is found that the failure mode is determined principally by joint orientation and step angle and the joint orientation with respect to principal stress direction is the parameter with the greatest influence on rock mass properties. 相似文献
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预制节理岩体试件强度及破坏模式的试验研究 总被引:2,自引:0,他引:2
采用相似材料模型试验对不同节理倾角、节理贯通度、节理组数、载荷应变率、试件长径比、节理充填物厚度及类型等7种工况下的预制节理岩体在单轴压缩下的峰值强度及破坏模式进行了研究。结果表明:节理岩体的破坏模式及峰值强度与节理构造形态密切相关。贯通节理岩体将产生沿节理面的剪切破坏或穿切节理面破坏,且与第1种破坏模式对应的岩体峰值强度更低。非贯通节理岩体的强度介于完整岩体和贯通节理岩体之间。随着平行节理组数的增加,岩体峰值强度逐渐下降。随着载荷应变率的增加,岩体峰值强度逐渐增大,相应地试件的破坏模式也变得更加复杂。试件长径比基本没有改变其破坏模式,完整试件仍主要是以张拉破坏为主,而节理试件仍以剪切破坏为主。随着长径比增加,试件峰值强度逐渐增大。随着节理充填物厚度增加,试件峰值强度降低。不同节理填充物对试件峰值强度也有一定影响。 相似文献
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含交叉裂隙岩体相似材料试件力学性能单轴压缩试验 总被引:3,自引:0,他引:3
以相似材料制作含交叉裂隙岩体试件,考虑主裂隙与加载方向之间角度变化及主、次裂隙之间角度变化制作20组试件,对试件进行单轴压缩试验,研究交叉裂隙对岩体破坏模式及力学特性的影响。研究表明,主裂隙与加载方向呈0°及90°时,试件破坏主要为沿次裂隙扩展的剪切型破坏;当主裂隙与加载方向呈30°及45°时,试件破坏主要是沿主裂隙扩展所致的剪切型破坏;主裂隙角度一致情况下,大部分含交叉裂隙岩体破坏强度高于含单向裂隙岩体,含交叉裂隙岩体试件应力-应变曲线峰后下降斜率比含单向裂隙岩体大;主裂隙角度一致情况下,当次裂隙与主裂隙呈45°夹角左右时,岩体试件强度较低,当次裂隙与主裂隙呈30°及90°夹角左右时,岩体试件强度较高。 相似文献
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针对柱状节理岩体的构造特性,采用水泥砂浆等材料制作出具有不同柱体倾角且含有横向节理分布的柱状节理岩体模型,并通过单轴压缩试验,研究柱体倾角和横向节理对岩体各向异性力学特性及破坏机制的影响。结果表明:试样峰值强度和变形模量随柱体倾角变化曲线均近似为U形,并体现出典型的各向异性特征;随着柱体倾角的变化,试样单轴压缩破坏模式可分为垂直于柱体轴向的劈裂破坏、沿纵向节理面的剪切滑移破坏、滑移破坏与劈裂破坏同时发生的复合破坏和平行于柱体轴向的劈裂破坏4类;横向节理的存在降低了柱状节理岩体沿柱轴方向的完整性,并影响了劈裂破坏裂纹的分布与扩展,因此,横向节理切割柱体是影响柱状节理岩体承载能力的重要因素。 相似文献
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节理岩体动态破坏的SHPB相似材料试验研究 总被引:1,自引:0,他引:1
采用相似材料模型试验对不同节理倾角、节理贯通度、节理条数、载荷应变率、节理充填物厚度、节理充填物类型及试件长径比等7种工况下的节理岩体动态强度及破坏模式进行了分离式Hopkinson压杆(SHPB)试验研究。结果表明:节理岩体动态破坏模式及强度与节理构造形态密切相关。对于单节理岩体,其强度及破坏特征在很大程度上受节理倾角控制,节理倾角0°、90°试件动强度分别为完整试件的90%和71%,且其破坏形式均为张拉破坏;倾角60°试件动强度几乎为0;倾角30°、45°试件的动强度分别为完整试件的50%和18%,且其破坏以剪切破坏为主,兼有张拉破坏。中心1/4、1/2、4/5及全贯通节理试件的峰值强度分别为完整试件的95%、74% 、28%和17%,即随节理贯通度增加,试件动强度逐渐降低。含1~3条节理的试件动强度分别为完整试件的54%、23%和10%,即随节理条数增加,试件动强度随之有较大幅度降低,但节理条数的增加并没有改变其破坏模式。随着节理充填物厚度增加及节理充填物强度降低,试件强度依次递减,但破坏模式并没有改变。完整试件和节理试件的动强度均随着载荷应变率的增加而变大,且前者对载荷应变率的敏感性要远远高于后者,相应地试件的破坏模式也变得更加复杂。两类试件的动强度均随着试件长径比的增加先增大后减小,即存在一个最佳长径比。 相似文献
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M. Singh 《Rock Mechanics and Rock Engineering》2000,33(2):141-147
Summary ?Deformational behaviour of jointed rocks is governed both by the properties of the joints and the intact rock. The applicability
of a constitutive model to predict the stress-strain behaviour of a jointed block mass is discussed in this note. The stress-strain
curves predicted by the model are compared with the experimental curves from physical model tests. It is observed that the
model predicts the tangent modulus of the mass very closely. The failure strains are, however, underestimated, which may be
due to the constant value of shear stiffness, resulting in linear stress-strain response by the model. The non-linear response
of stress-strain curves can be obtained by using a variable value of the shear stiffness of the joints. A simple approach
has been presented to assign variable stiffnesses, based on direct shear test results on joints. It is found that by assuming
a variable stiffness the axial strains can also be predicted accurately. The transverse strain, however, remains highly underestimated
by the model. 相似文献
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在节理岩体工程的数值计算及稳定性评价中,变形特征参数的选择至关重要。在原位试验受到各种条件无法进行时,经验确定方法不失为一种好的选择。本文在大量收集目前国内外节理岩体变形模量经验确定方法的基础之上,提出了改进的节理岩体变形模量经验确定方法,即尺寸效应折减与节理特征折减的二次折减法,并应用3个坝址与水电站的节理岩体工程实例进行分析验证,得出了一些有益的结论。 相似文献
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节理岩体地基极限承载力研究 总被引:2,自引:0,他引:2
由于节理岩体具有复杂的力学特性,节理岩体地基的极限承载力问题一直都没有很好解决。利用非线性统一强度准则考虑中间主应力影响和岩性、岩体结构特性可以通过参数m,s和σc 来反映的优点,将非连续介质特性的节理岩体等效为连续介质,在确定即时摩擦角后,结合滑移线场理论获得了节理岩体地基极限承载力的封闭形式的理论解,其解考虑了边界条件和基础的几何形状,举例说明了计算裂隙岩体极限承载力的过程和所需的参数。结果表明:节理岩体的材料特性和中间主应力对极限承载力具有重要影响。 相似文献
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A new rock mass failure criterion for biaxial loading conditions 总被引:1,自引:0,他引:1
P. H. S. W. Kulatilake Jinyong Park Bwalya Malama 《Geotechnical and Geological Engineering》2006,24(4):871-888
To simulate brittle rocks, a mixture of glastone, sand and water was used as a model material. Thin galvanized sheets of thickness
0.254 mm were used to create joints in blocks made out of the model material. To investigate the failure modes and strength,
both the intact material blocks as well as jointed model material blocks of size 35.6 × 17.8 × 2.5 cm having different joint
geometry configurations were subjected to uniaxial and biaxial compressive loadings. A new intact rock failure criterion is
proposed at the 3-D level. This criterion is validated for biaxial loading through laboratory experimental results obtained
on intact model material blocks. Results obtained from both the intact and jointed model material blocks are used to develop
a strongly non-linear new rock mass failure criterion for biaxial loading. In this failure criterion, the fracture tensor
component is used to incorporate the directional effect of fracture geometry system on jointed block strength. The failure
criterion shows the important role, the intermediate principal stress plays on rock mass strength. 相似文献
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工程岩体强度的估算方法 总被引:1,自引:0,他引:1
岩体是由地质过程中形成的岩块和结构面网络组成。由于试件制备、加荷等均极困难,且昂贵而费时,难于像岩块那样进行大量试验来确定岩体之强度。所以,如何通过室内小试件试验来估算大岩体的强度成为工程地质工作者所关注的问题。本文介绍了两种用小试件资料估算大岩体强度的方法及计算实例。 相似文献
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Jamal Zadhesh Seyed-Mohammad Esmaeil Jalali Ahmad Ramezanzadeh 《Arabian Journal of Geosciences》2014,7(6):2353-2361
To predict the behavior of structures in and on jointed rock masses, it is necessary to characterize the geomechanical properties of joints and intact rock. Among geometry properties of joints, trace length has a vital importance, because it affects rock mass strength and controls the stability of the rock structures in jointed rock masses. Since joint length has a range of values, it is useful to have an understanding of the distribution of these values in order to predict how the extreme values may be compared to the values obtained from a small sample. For this purpose, three datasets of joint systems from nine exposures of igneous, metamorphic, and sedimentary rocks are studied. Joint trace length is one of the most difficult properties to measure accurately, but it may be possible to record other geometrical properties of exposed joints accurately; thereby, support vector machine (SVM) model is used to predict the joint trace length. SVM is a novel machine learning method, which is a powerful tool used to solve the problem characterized by small sample and non-linearity with a good generalization performance. Consequently, goodness-of-fit (GOF) tests were applied on these data. According to these GOF tests, the lognormal distribution was found to be the best probability distribution function for representing a joint trace length distribution. 相似文献
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采用云石胶黏结岩块的方法制备人工节理面,通过直剪试验获得人工节理面的抗剪强度特性,基于完整和单节理砂岩的常规三轴试验,分析不同倾角(0°,30°,60°,90°)对单节理岩体试样力学响应的影响。结果表明:人工节理面在直剪试验中呈现脆性破坏,其抗剪强度符合M-C准则;不同围压下(2.5,5 0和7.5 MPa)完整砂岩的破坏形态和弹性模量基本相同,峰值强度随围压增大;相同围压下(2.5 MPa)不同倾角单节理岩体的破坏形态、弹性模量、峰值强度均不相同,单节理岩体试样的峰值强度-倾角曲线呈反对号“”形,节理倾角对岩体力学性质的影响明显,其中60°节理岩体试样的强度最低,仅为完整岩石强度的19.7%。推导了过圆柱体试样中心任意斜截面内力的三维计算公式,根据其理论预测所得完整岩石的破裂面角度和60°节理试样的破坏方式均与试验结果相符,其吻合度较传统的二维分析更高。 相似文献
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In this paper, an anisotropic strength criterion is established for jointed rock masses. An orientation distribution function (ODF) of joint connectivity, is introduced to characterize the anisotropic strength of jointed rock masses related to directional distributed joint sets. Coulomb failure condition is formulated for each plane of jointed rock masses by joint connectivity, where the friction coefficient and cohesion of the jointed rock mass are related to those of the intact rock and joint and become orientation dependent. When approximating joint connectivity by its second‐order fabric tensor, an anisotropic strength criterion is derived through an approximate analytical solution to the critical plane problem. To demonstrate the effects of joint distribution on the anisotropic strength of jointed rock masses, the failure envelopes are worked out for different relative orientations of material anisotropy and principal stress axes. The anisotropic strength criterion is also applied to wellbore stability analyses. It is shown that a borehole drilled in the direction of the maximum principal in situ stress is not always the safest due to the anisotropic strength of the jointed rock mass. Copyright © 2007 John Wiley & Sons, Ltd. 相似文献
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针对输电线路注浆锚杆基础特点,根据相似理论设计了节理化岩体注浆锚杆基础抗拔模型试验,模型设计中考虑了岩石弹性模量、浆体弹性模量、节理迹长、节理倾角、锚杆埋深5个因素的变化,选择5因素4水平的正交试验方法进行了模型试验研究。结果表明,岩石弹性模量对注浆锚杆基础抗拔力的影响最大,其次为锚杆埋深、节理倾角、浆体弹性模量、节理迹长。试验过程中以剪切破坏和开裂破坏为主,并以此分析了注浆锚杆的传力机制,得出浆体与锚杆和岩体之间的黏结强度是控制试验结果的主要因素,影响着锚杆的极限抗拔力和破坏状态,在施工过程中应注意质量控制。 相似文献
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Most natural rock masses contain a large number of random joints and fissures, and most of the rock masses at the rock engineering are commonly in both compression and shear stress environment. However, the research on the failure characteristics of complex random jointed rock mass under compressive-shear loading is still limited. To address this gap, this paper uses the particle flow code 2D to establish a discrete fractured rock mass model and carry out a series of numerical tests with different compressive-shear angles (α) and different joint geometric parameters. The effects of compressive-shear angle and joint geometric parameters on the strength and failure characteristics of fractured rock masses are studied. The results indicate that with the increase of α, the peak strength of the specimen decreases gradually, and the failure mode changes from the composite shear failure mode (Mode-I) to a plane shear failure mode (Mode-II) and then to intact shear failure mode (Mode-III). Specifically, the three failure modes occur in the specimens with α?=?15°, 30° or 45°, 60°, respectively. The existence of joints affects stress distribution on rock mass during the loading process. Furthermore, the stress at the joint tip is relatively concentrated, while on both sides of the joint is smaller. Three kinds of crack coalescence patterns are observed: tensile, shear, and tensile-shear mixed coalescence. The inclination angle of the rock bridge between adjacent joints affects the specific type of coalescence.
相似文献18.
为探究深部岩体在爆破、开挖等扰动荷载下的力学特性,开展锚固岩体在蠕变-疲劳荷载下的室内试验,并进一步探究其能量演化规律。结果表明:(1)在疲劳荷载作用下,加锚节理岩体比无锚条件下的滞回环面积小,在施加预应力时,其滞回环面积又大幅度减少,说明加锚预应力能有效降低其能量损耗;(2)岩石强度越高,其滞回环面积越小,对应的能量耗散越小,反之能量耗散大;(3)对比不同加卸载速率可知:在每一级循环荷载过程中,加卸载速率越大其对应的应变值、切线斜率就越大。考虑加卸载速率对节理岩体劣化作用,依据应变等价原理,得出节理岩体峰值损伤本构方程,并通过试验验证模型的准确性,为深部岩体结构支护提供思路。 相似文献
19.
节理岩体的力学性质对指导工程设计、施工具有重要的意义。为研究组合节理参数对遍布节理试样的力学性质影响,采用类岩材料预制不同节理倾角、间距的遍布节理试样并进行压剪试验。根据高清相机记录的不同节理试样的破坏特征,试样的破坏模式可分为平面剪切破坏、类完整性剪切破坏和斜剪切破坏,节理间距会改变试样的破坏模式而节理倾角对试样的破坏模式有关键性影响。分析不同节理参数试样的峰值剪切强度,遍布节理对试样的弱化程度达到15.95% ~56.62%,节理试样的峰值剪切强度随着节理间距的增大逐渐增强而随着节理倾角的增加先增后减。此外,采用声发射设备实时监测试样加载过程以分析不同节理参数试样的声发射特征。在压密阶段,节理试样的声发射最大撞击数随节理间距减小而增大。声发射峰值能量随节理间距减小而减小,但均值能量随节理间距减小而增大;试样的峰值能量和均值能量随节理倾角增大均呈现先增大后减小的规律。 相似文献
20.
结合Voronoi图随机模拟和3D打印技术制备不规则柱状节理网络模型,采用白水泥浆类岩石相似模型材料浇筑模型并拆模,然后分别采用白乳胶和502胶水作为黏结剂黏结柱体得到两组不规则柱状节理岩体试件,通过对其进行室内单轴压缩试验研究不规则柱状节理岩体强度特性和破坏模式。试验结果表明:不规则柱状节理岩体试件单轴抗压强度随柱体倾角的变化曲线呈现近似“J”型,表现出显著各向异性特征;不规则柱状节理岩体试件典型破坏模式包括沿柱状节理面的劈裂破坏、沿柱状节理面的剪切破坏和沿柱体的压裂破坏等3种,其部分破坏形态有异于规则柱状节理岩体试件。同时,通过与采用净水泥浆作为黏结剂的柱状节理岩体试验结果进行比较,结果表明:采用白乳胶和502胶水作为黏结剂时柱体间黏结强度更低,能够较好反映柱状节理面的弱化效应,试件力学响应与真实柱状节理岩体更为一致。 相似文献