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1.
节理粗糙度系数-节理抗压强度(JRC-JCS)模型为岩体节理面抗剪强度估算提供了很好的思路,但对于吻合度较差的节理岩体,该模型往往过高地估算其抗剪强度。节理粗糙度系数-节理吻合系数(JRC-JMC)模型进一步考虑节理吻合度对抗剪强度的影响,为吻合程度较差的节理面的抗剪强度估算提供了很好的思路,但目前节理吻合度的量化分析还存在困难。在以往研究基础上,采用重复剪切试验的方法制备了不同吻合度的节理岩体试样,综合节理面形貌特征和节理面抗剪性能变化规律分析,提出了节理吻合度的量化计算方法。研究结果表明:(1)在重复剪切作用下,岩体节理面的抗剪强度和节理面形貌参数呈现先陡后缓的降低趋势,节理面上下盘的吻合程度逐渐降低;(2)根据剪切前后节理面形貌特征的对比分析,确定了剪切过程节理面的有效接触区域,提出了节理吻合系数JMC的量化计算方法;(3)对比分析表明,与单独考虑JRC相比,将JRC和JMC综合在一起可以更好地反映节理形貌特征对其剪切性能的影响。相关研究方法和分析结果可为岩体节理面抗剪性能分析提供较好的参考。 相似文献
2.
通过一系列剪切模型试验,研究在不同法向力、预应力和锚固情况下锚索对平滑节理面抗剪性能的影响,利用对比试验将销钉力、预应力和轴力增量3种力的抗剪作用分离出来,着重探讨了在剪切过程中3种力对节理面的抗剪贡献,并分析了锚索模拟体的破坏形式。试验结果表明,预应力锚固明显提高了节理面剪切力-位移曲线初始段的抗剪力和剪切刚度,并使得曲线末段表现出塑性强化的特征;预应力大小对加锚节理面抗剪强度的影响与试验条件、节理面状况和锚固角等有关。试验和理论分析表明,剪切位移开始阶段预应力和销钉作用发挥了主要作用,杆体形成塑性铰后轴力增量则起了重要的作用,锚索的破坏一般发生在节理面附近,属于拉剪复合破坏模式。 相似文献
3.
《岩土力学》2017,(Z1):27-35
为研究锚杆锚固对节理岩体剪切性能的影响规律及锚杆抗剪作用机制,开展不同锚杆倾角及不同法向应力作用下加锚节理岩体室内剪切试验研究,探究加锚节理岩体在法向力及剪切力作用下的变形和受力特征,对比分析节理岩体锚固前与锚固后的剪切变形规律,讨论锚杆倾角、节理面法向应力等因素对节理岩体抗剪性能的影响。试验结果表明,锚杆锚固能够有效地增加节理面的黏聚力和内摩擦角,提高节理岩体的抗剪强度;锚杆倾角对加锚节理岩体的抗剪强度及剪切变形规律有重大影响,较大的锚杆倾角有利于发挥锚杆的"销钉"抗剪作用;节理岩体施加锚杆后其剪力–位移曲线存在弹性阶段、屈服阶段及塑性变形阶段3个区段;在锚杆倾角相同的条件下加锚节理岩体的抗剪强度随节理面法向应力的增加而增大。分析试验后试件破坏形态可知,加锚节理岩体中锚杆的屈服破坏主要发生在节理面附近的区段,岩体材料由于锚杆横向的挤压作用,也会在节理面附近发生局部破坏现象。 相似文献
4.
《岩土力学》2020,(1):46-56
岩体中节理的几何形态及力学特性是影响其剪切力学特性及破坏模式的重要因素之一。基于3D打印技术,建立了不同节理粗糙系数(JRC)的节理模型、几何形态节理模型和复杂裂隙网络物理模型,通过开展室内直接剪切试验分析了各组试件的剪切强度及破坏模式。结果表明节理模型的抗剪强度随JRC波动性较大,波动幅值越高,峰值剪切位移越低;平面形节理模型的峰值抗剪强度最低,矩形节理模型的峰值抗剪强度最高,正弦形和三角形节理试件的抗剪能力相近;离散裂隙网络模型和粗糙裂隙网络模型的峰值抗剪强度显著低于实心试件,考虑了节理粗糙性的裂隙网络模型抗剪强度高于直线型节理模型;实心试件破坏模式为典型脆性剪切破坏,裂隙网络模型的破坏模式相对复杂,沿着剪切方向主剪切裂面波动萌生,破断面由多个节理面的交叉点破坏与沿节理面的滑移构成。研究成果可以为3D打印技术的推广和复杂节理岩体剪切力学特性的室内试验研究提供参考。 相似文献
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6.
为反映弱面注浆对边坡岩体的宏观效应,通过对边坡弱面注浆前、后两种状态采用FLAC3D数值计算模型,分析边坡岩体注浆前、后的应力、位移场的变化。结果表明:注浆前,竖向拉应力和水平拉应力区向边坡内侧增大,且平行节理面分布,节理面两侧应力变化梯度明显;静态位移和动态位移向边坡内侧递减,位移在节理面处明显发生突然变化。边坡内侧节理面是构成潜在滑动面的主要因素。注浆后,拉应力区明显变小,拉应力贯通区消失,应力变化梯度减小;静态位移和动态位移明显下降,节理面处位移突变减小或消失。说明注浆加固处理对节理损伤起到很好的修复作用,提高了节理的抗剪强度和抗剪刚度。从而使岩体的应力场和位移场变得均匀和连续,节理面的拉应力区减小,较大的位移得以抑制,提高了节理边坡的整体性和稳定性。 相似文献
7.
岩石相似材料摩擦实验装置的改进 总被引:1,自引:1,他引:1
在岩石相似材料模型试验中,摩擦实验是必不可少的实验,它用来确定节理、裂隙、滑动面等软弱结构面相似材料的抗剪强度参数。本文介绍了一种改进的摩擦实验装置,实验表明采用该装置获得的实验数据更加准确、可靠,同时,还可以利用该装置确定岩石结构面的抗剪参数。 相似文献
8.
利用二维颗粒流程序生成5种不同粗糙程度的节理模型,并对5种节理模型进行了5种不同法向恒定荷载作用下的直剪试验,从细观角度分析了不同粗糙程度的节理模型在法向荷载下的形貌损伤情况和裂纹演化机制。与此同时,分析了节理JRC值和节理面颗粒摩擦系数对节理抗剪强度影响,并反推出了节理面抗剪强度参数Cj与?j与JRC值的关系。结果为:法向恒定荷载越大时,节理峰值抗剪应力越大,剪胀现象越小,节理形貌损伤范围越大。随着剪切的进行,上下节理面接触范围减小,微裂纹开始主要沿节理面产生,随着剪切位移的继续增加微裂纹数量显著增加,并且不局限于节理面附近而深入到模型内部。随着节理粗糙程度(JRC值)和节理面颗粒摩擦系数的增加节理峰值抗剪应力也增大。节理抗剪强度参数Cj与?j随着JRC值的增大而增大。所得结果可以为室内试验和工程应用提供参考和依据。 相似文献
9.
为探究锚固节理在直剪加载作用下的细观力学响应,利用颗粒流数值计算方法建立不同锚固角度下的锚固节理数值模型,并进行不同法向荷载下的直剪试验。之后,通过分析和对比剪切-位移曲线和峰值剪切强度来对锚固节理宏观力学性质进行研究。与此同时,基于微裂纹分布规律,从细观角度揭示了剪切荷载下不同锚固角度的岩石节理面的破坏特征;研究结果显示。(1)不同于非锚固节理,锚固节理的剪切-位移曲线在剪切后期呈现出一定的增长趋势,且粗糙度不同曲线变化特征存在一定的差异。(2)不同锚固角度下,锚固节理的破坏模式存在着较为明显的差异。当锚固角为90°时,锚固节理模型的破坏主要集中于锚杆与上下节理面接触位置,且破坏主要为挤压式破坏。随着锚固角度的减小,接触位置的破碎区域不断减小,节理破坏主要表现为沿着锚杆的轴向拉伸变形破坏及内部的拉伸破坏。(3)锚固角度的变化对锚固节理的抗强度的影响程度与节理面的粗糙度存在一定关联。具体而言,较为平直节理抗剪强度随着锚固角度的增大,增长趋势明显,而粗糙节理面随着锚固角度的增大峰值抗剪强度的变化趋势相对较为平缓。 相似文献
10.
节理分布位置影响岩体综合抗剪强度,并控制“锁固段”型岩质边坡启动和破裂演化。通过模型试件剪切试验,分析了节理分布位置对岩体综合抗剪强度和破裂特征的影响程度。试件模型以水泥砂浆为材料,在剪切面不同位置预制封闭节理,使其成为四周密封、内部节理贯通的模型。在不同法向应力下进行剪切试验,测定综合抗剪强度变化规律和剪切破裂特征。试验结果表明:试样破裂面可分为翼部拉张区、翼部压剪区、端部拉张区三部分,各区面积所占比例随节理位置变化而波动。剪切强度参数也随节理位置变化而规律性波动,且法向应力越大,变化幅度越大。 相似文献
11.
非贯通节理岩体直剪试验研究进展 总被引:1,自引:0,他引:1
基于典型的直剪试验,国内外学者提出了非贯通节理岩体贯通破坏机理,并建立了相应的强度准则,如Jennings方法,即加权平均强度理论和强度准则、Lajtai岩桥破坏理论和强度准则、断裂力学的II型破坏理论和强度准则,拉剪复合破坏和强度准则。然而,非贯通节理岩体破坏机理目前还没有完全弄清楚,已建立的强度准则所包含的重要参数还需深入研究,如:如节理面的传压系数、传剪系数、弱化了的岩桥内摩擦力和内摩擦角等;非贯通节理岩体节理闭合和剪切的本构关系有待建立;不共面非贯通节理岩体全过程最大抗剪强度需进一步研究。伺服直剪试验机、静态应变测试仪、声发射仪、X射线测量等无损检测技术能够为进一步研究非贯通节理岩体的破坏机理,提出新的理论和建立新的强度准则提供强有力的技术支持。 相似文献
12.
微震、工程爆破等低应力循环剪切荷载作用对节理岩体工程失稳破坏具有重要影响。为研究峰前循环剪切加卸载作用下岩石节理剪切力学特性,采用RDS-200型岩石节理剪切试验系统对人工劈裂黄砂岩节理进行了峰前循环剪切下的直剪试验。通过与未进行峰前循环剪切加卸载时岩石节理力学参数预测值对比,得到峰前循环剪切加卸载作用对峰前剪切刚度、峰值剪切强度、峰值剪切位移与残余剪切强度的影响。结果表明:(1)峰前循环剪切加卸载后,当法向应力为2 MPa时,岩石节理峰前剪切刚度增大,当法向应力为4~10 MPa时,岩石节理峰前剪切刚度在循环剪切应力幅值范围内增大,在超出循环剪切应力幅值时减小;(2)峰前循环剪切加卸载后,峰值剪切强度降低了10%~20%,降低百分比随法向应力增大整体呈对数函数增大;峰值剪切位移增加了2%~40%,增加百分比随法向应力增大整体呈对数函数减小;(3)峰前循环剪切加卸载后,岩石节理残余剪切强度无明显变化,峰值剪切强度与残余剪切强度差值减小,峰后剪切应力做功损失百分比降低。 相似文献
13.
Hossein Jalalifar Naj Aziz Muhammad Hadi 《Geotechnical and Geological Engineering》2006,24(5):1203-1227
Fully encapsulated rock bolting has, in recent years, become a universally accepted system of ground reinforcement in mining
and tunnel construction. The application of bolting systems extends both to rebar as well as cable bolting. The effectiveness
of the bolt application has been studied in shear, both by laboratory tests as well as by numerical modeling. A specially
constructed double shearing apparatus (DSA) was used to examine the shearing behaviour of a bolt installed perpendicularly
across two joints. The experimental study was complemented with three-dimensional numerical analysis. Parameters examined
include, the effect of reinforced material on tension/compression zones along the sheared bolt, shear resistance, shear displacement
and induced strains and stresses during bolt bending process. The study was undertaken at both free load and pretension conditions.
The conclusions drawn from the study were the level of bolt resistance to shear was influenced by bolt profile configuration,
the strength of the rock or medium influenced the level of load generated on the bolt and the increased bolt pretension contributed
to increased shearing load of the bolted medium. The numerical simulation of the bolt/medium interaction and deformational
behaviour were found to be in close agreement with the experimental test results. 相似文献
14.
含二阶起伏体的模拟岩体节理试样剪切特性试验研究 总被引:1,自引:0,他引:1
利用规则的小尺寸锯齿构造二阶起伏体,对不同二阶起伏体高度的人工节理进行常法向应力下的直剪试验,研究了节理剪切力学特性。对节理的剪切强度、变形特征进行了分析,并对破坏特征做出解释。试验结果表明:二阶起伏体对节理剪切力学特性有重要影响,含二阶起伏体节理的剪切力学特性与只含有一阶起伏体节理的剪切力学特性不同,只含一阶起伏体的节理剪应力只有一个峰值,含二阶起伏体的节理会出现波浪状的剪胀曲线和多峰值剪应力,且峰值剪应力随剪切位移增大依次出现并逐个减小;随着二阶起伏体高度增大,节理峰值剪切强度增大,节理依次出现磨损破坏、多次性剪断破坏、一次性剪断破坏。 相似文献
15.
In this paper, the effects of shear velocity on the shearing behavior of artificial joints have been studied at different normal stress levels. Here, artificial joints with planar and rough surfaces were prepared with the plaster (simulating soft rock joints) and concrete (medium-hard rock joints) materials. The rough joints had triangular shaped asperities with 10° and 20° inclination angles. Direct shear tests were performed on these joints under various shear velocities in the range of 0.3–30 mm/min. The planar plaster–plaster and planer concrete–concrete joints were sheared at three levels of normal stress under constant normal load boundary condition. Also, the rough plaster–plaster and concrete–concrete joints were sheared at one level of normal stress under constant normal stiffness boundary condition. The results of the shear tests show that the shearing parameters of joints, such as shear strength, shear stiffness and friction angle, are related to the shear velocity. Shear strength of planar and rough plaster–plaster joints were decreased when the shear velocity was increased. Shear strength of concrete joints, except for rough joints with 10° inclination, increased with increasing shear velocity. Regardless of the normal stress level, shear stiffness of both planar plaster–plaster and concrete–concrete joints were decreased when the shear velocity was increased. 相似文献
16.
门楼水库溢流坝段岩石与混凝土抗剪参数的确定 总被引:3,自引:1,他引:2
通过对门楼水库溢流坝段不同位置、不同深度、不同岩石风化程度在不同混凝土强度和不同含水率情况下近百块试块的室内直剪试验,研究了岩石和混凝土胶结面的抗剪强度与混凝土强度、岩石的风化破碎程度和含水率的关系。结果表明,混凝土的强度对胶结面的抗剪强度具有明显的影响;对于块状及次块状结构类型岩体,胶结面抗剪强度参数基本相同,但裂隙块体强度降低很多,部分块体破坏形态已不在是沿胶结面破坏,而是部分迁就胶合面,部分追随岩体内的结构面,并形成较大的起伏;随着含水率的增加,凝聚力和内摩擦角都明显降低。试块的抗剪强度只代表试验点的强度,为了得到建基面的抗剪强度,将岩石和混凝土的抗剪强度看作随机变量,引入区域化内变量和变异函数反映抗剪强度的随机性和结构性,通过克里格方程求得各个样本的权值,进而求出不同建基面的抗剪参数。 相似文献
17.
This paper presents a review of recent developments made by the authors into the modelling of rock joints in direct shear. Careful observation of laboratory direct shear testing on concrete/rock joints containing two-dimensional roughness has allowed theoretical models of behaviour to be developed. The processes modelled include asperity sliding, asperity shearing, post-peak behaviour, asperity deformation and distribution of stresses on the joint interface. Model predictions compare extremely well with laboratory test results. These models were then applied to direct shear tests on rock/rock joints, and although behaviour in general was well predicted, the strength of rock/rock joints was over-predicted. Direct shear tests have also been carried out on samples containing both two- and three-dimensional roughness to test the accuracy of the two-dimensional approximation to roughness adopted in the theoretical models. 相似文献
18.
M. K. Jafari F. Pellet M. Boulon K. Amini Hosseini 《Rock Mechanics and Rock Engineering》2004,37(1):3-23
Summary Evaluation of the effects of small repetitive earthquakes on the strength parameters of rock joints in active seismic zones is of interest of the designers of underground constructions. In order to evaluate these effects, it is necessary to study the behaviour of rock joints under dynamic and cyclic loadings. This paper presents the results of a systematic study on the behaviour of artificial rock joints subjected to cyclic shearing. More than 30 identical replicas have been tested using triaxial compression devices under different conditions of monotonic and cyclic loading. At the first stage a few samples have been tested in monotonic loading modes under various confining pressures and rate of displacement. In the second series of tests, small cyclic loads were applied on the samples for increasing number of cycles, frequency levels and stress amplitudes. These were then followed by monotonic loading again. The variations of maximum and residual shear strengths for each test have been studied. The results show increase of shear strength as a result of the increase in confining pressure and they display decrease of shear strength due to the increase of rate of loading, number of cycles, frequency levels and stress amplitudes. 相似文献
19.
The morpho‐mechanical behaviour of one artificial granite joint with hammered surfaces, one artificial regularly undulated joint and one natural schist joint was studied. The hammered granite joints underwent 5 cycles of direct shear under 3 normal stress levels ranging between 0.3 and 4 MPa. The regularly undulated joint underwent 10 cycles of shear under 6 normal stress levels ranging between 0.5 and 5 MPa and the natural schist replicas underwent a monotonics shear under 5 normal stress levels ranging between 0.4 and 2.4 MPa. These direct shear tests were performed using a new computer‐controlled 3D‐shear apparatus. To characterize the morphology evolution of the sheared joints, a laser sensor profilometer was used to perform surface data measurements prior to and after each shear test. Based on a new characterization of joint surface roughness viewed as a combination of primary and secondary roughness and termed by the joint surface roughness, SRs, one parameter termed ‘joint surface degradation’, Dw, has been defined to quantify the degradation of the sheared joints. Examinations of SRs and Dw prior to and after shearing indicate that the hammered surfaces are more damaged than the two other surfaces. The peak strength of hammered joint with zero‐dilatancy, therefore, significantly differs from the classical formulation of dilatant joint strength. An attempt has been made to model the peak strength of hammered joint surfaces and dilatant joints with regard to their surface degradation in the course of shearing and two peak strength criteria are proposed. Input parameters are initial morphology and initial surface roughness. For the hammered surfaces, the degradation mechanism is dominant over the phenomenon of dilatancy, whereas for a dilatant joint both mechanisms are present. A comparison between the proposed models and the experimental results indicates a relatively good agreement. In particular, compared to the well‐known shear strength criteria of Ladanyi and Archambault or Saeb, these classical criteria significantly underestimate and overestimate the observed peak strength, respectively, under low and high normal stress levels. In addition and based on our experimental investigations, we put forward a model to predict the evolution of joint morphology and the degree of degradation during the course of shearing. Degradations of the artificial undulated joint and the natural schist joint enable us to verify the proposed model with a relatively good agreement. Finally, the model of Ladanyi and Archambault dealing with the proportion of total joint area sheared through asperities, as, once again, tends to underestimate the observed degradation. Copyright © 2001 John Wiley & Sons, Ltd. 相似文献
20.
在微机控制岩石剪切试验机上,针对预裂的含薄层黏土充填结构面板岩试件,进行不同法向应力下的结构面直剪试验,发现:结构面直剪试验中,并不是整个结构面都参与抗剪工作,只有部分结构面发挥抗剪作用,而且发挥抗剪作用的有效摩擦面积随法向应力的增大而增大,但是增大速率逐渐减小。基于整个结构面发挥抗剪作用的假设,获得了结构面表观剪应力-剪位移关系曲线,拟合计算了结构面表观抗剪强度指标;同时基于每次直剪试验中结构面部分区域发挥抗剪作用的假设,获得了结构面有效剪应力-剪位移关系曲线,拟合计算了结构面有效抗剪强度指标。对比两者发现:结构面抗剪强度指标中,内摩擦角与发挥抗剪作用面积的选取无关,黏聚力则受发挥抗剪作用面积选取的影响;基于结构面有效摩擦面积计算得到的有效黏聚力,相比表观黏聚力,提高了95%。本文研究成果对于滑坡工程治理方案的评估与选择具有重要的意义和价值。 相似文献