Effect of rock joint roughness on its cyclic shear behavior

Rock joints are often subjected to dynamic loads induced by earthquake and blasting during mining and rock cutting. Hence, cyclic shear load can be induced along the joints and it is important to evaluate the shear behavior of rock joint under this condition. In the present study, synthetic rock joints were prepared with plaster of Paris(Po P). Regular joints were simulated by keeping regular asperity with asperity angles of 15°-15° and 30°-30°, and irregular rock joints which are closer to natural joints were replicated by keeping the asperity angles of 15°-30° and 15°-45°. The sample size and amplitude of roughness were kept the same for both regular and irregular joints which were 298 mm×298 mm×125 mm and 5 mm, respectively. Shear test was performed on these joints using a large-scale direct shear testing machine by keeping the frequency and amplitude of shear load under constant cyclic condition with different normal stress values. As expected, the shear strength of rock joints increased with the increases in the asperity angle and normal load during the first cycle of shearing or static load. With the increase of the number of shear cycles, the shear strength decreased for all the asperity angles but the rate of reduction was more in case of high asperity angles. Test results indicated that shear strength of irregular joints was higher than that of regular joints at different cycles of shearing at low normal stress. Shearing and degradation of joint asperities on regular joints were the same between loading and unloading, but different for irregular joints. Shear strength and joint degradation were more significant on the slope of asperity with higher angles on the irregular joint until two angles of asperities became equal during the cycle of shearing and it started behaving like regular joints for subsequent cycles.

Feasibility of columnar jointed basalt used for high-arch dam foundation

Columnar jointed basalt, with a lot of small-spacing structural planes and poor integrity, is a kind of fractured rock mass. Through comprehensive study of columnar joints shape, roughness of fracture surface and chemical composition of basalt, it is known that columnar joints of Baihetan dam area were formed as a result of cooling and shrinkage effects of magma. The columnar jointed basalt is mainly formed through chemical reaction of chlorite, kaolinite, epidote and tremolite, and the columnar joints mainly consist of chlorite according to slice identification and chemical analysis. Test results show that the columnar jointed basalt has high uniaxial compressive strength, low friction coefficient, and high cohesion, shear strength and deformation index. Meanwhile, the columnar jointed basalt is closely locked, and joint surfaces are well closed. The permeability of the rock is quite weak, and the P-wave velocity in the rock could get up to 5 000 m/s. All these show good rock properties. The columnar joints develop regularly, different from the general fractured rock masses. In summary, the columnar jointed basalt can be used directly as a foundation of dam.

贯通型标准JRC双节理剪切力学及声发射特性研究

节理岩体的抗剪性能是影响工程岩体强度及稳定性的关键因素。基于3D打印技术制作标准JRC节理面模具和固定夹板,采取一体化浇筑方式制备不同节理面间距和不同粗糙度的双节理试样,结合声发射(acousticemission,AE)技术探究不同法向应力条件下粗糙双节理岩体剪切力学特性和破坏演化特征。结果表明:剪切应力-剪切位移曲线形态受节理粗糙度和法向应力共同影响。随JRC和法向应力的增加,剪切应力软化程度加重;法向应力较大时,峰后阶段剪切应力存在多次突降现象,突降值随法向应力的增加而增大。峰值剪切强度出现在双节理间岩石夹层断裂时刻,随JRC和法向应力的增加呈增大趋势,随节理面间距增加呈减小趋势。AE结果表明:岩石夹层断裂时刻AE能量大幅突增,AE能量峰值稍滞后于剪切应力峰值,随法向应力的增加,AE能量峰值和累积AE能量值增大;AE定位点空间上集中于岩石夹层部分,时间上频发于200~600 s内,随节理面间距的增加,AE定位点的集中范围扩大。

装配式混凝土墙板新型键槽接缝受剪性能研究

为研究适用于低多层装配式混凝土(PC)墙板的新型键槽接缝界面的受剪性能,设计并制作2组共8个键槽式接缝连接的PC墙板试件,开展单向推剪加载试验和扩展参数数值分析,分别探讨轴压比、结合面砂浆强度及键槽构造形式等因素对键槽界面受剪性能的影响;提出新型键槽接缝界面的受剪承载力计算公式,并构建键槽接缝界面的剪力-滑移模型。研究结果表明:轴压比对接缝破坏形态和受剪承载力均具有显著影响,增大轴压比后,裂缝发展更为充分,局部混凝土出现剥落甚至压溃,接缝的受剪承载力与轴压比近似呈线性关系。提高结合面砂浆强度可较大幅度地提升接缝的受剪承载力,对比普通填充砂浆,采用高强砂浆连接试件的受剪承载力提高了57.2%。合理的键槽界面构造可有效提高接缝的受剪承载力,相较于传统的平直缝界面,深度为50 mm、倾斜倒角为11.3°的键槽界面的受剪承载力提升了16.5%。本文所提公式受剪承载力计算结果与试验结果吻合较好,所提模型能准确预测键槽界面的受剪行为。

Joints in unsaturated rocks:Thermo-hydro-mechanical formulation and constitutive behaviour

A formulation for the coupled analysis of thermo-hydro-mechanical （THM） problems in joints is first presented. The work involves the establishment of equilibrium and mass and energy balance equations. Balance equations were formulated taking into account two phases： water and air. The joint element developed was implemented in a general purpose finite element computer code for THM analysis of porous media （Code_Bright）. The program was then used to study a number of cases ranging from laboratory tests to large scale in situ tests. A numerical simulation of coupled hydraulic shear tests of rough granite joints is first presented. The tests as well as the model show the coupling between permeability and the deformation of thejoints. The experimental investigation was focused on the effects of suction on the mechanical behaviour of rock joints. Laboratory tests were performed in a direct shear cell equipped with suction control. Suction was imposed using a vapour forced convection circuit connected to the cell and controlled by an air pump. Artificial joints of Lilla claystone were prepared.Joint roughness of varying intensity was created by carving the surfaces in contact in such a manner that rock ridges of different tip angles were formed. These angles ranged from 0° （smooth joint） to 45° （very rough joint profile）. The geometric profiles of the two surfaces in contact were initially positioned in a ＂matching＂ situation. Several tests were performed for different values of suctions （200, 100, and 20 MPa） and for different values of vertical stresses （30, 60, and 150 kPa）. A constitutive model including the effects of suction and joint roughness is proposed to simulate the unsaturated behaviour of rock joints. The new constitutive law was incorporated in the code and experimental results were numerically simulated.

不同控制方式和卸荷应力路径下类岩石节理剪切强度特征研究

为研究不同控制方式和卸荷应力路径下岩石节理失稳剪切强度特征,借助RDS-200型岩石节理剪切试验系统开展了2种控制方式和3种卸荷应力路径下的类岩石节理直剪试验。结果表明:(1)采用应力控制方式进行切向加卸载时,各剪切加卸载路径下,节理剪切应力-时间曲线多存在失稳跌落现象,剪切应力-位移曲线失稳后多表现为折线形式。(2)与采用应力控制方式进行切向加载的试样结果相比,采用位移控制方式进行切向加载、采用应力控制方式进行法向卸载并保持剪切应力恒定、采用应力控制方式进行法向卸载和切向加载、采用应力控制方式同时进行法向和切向卸载的试样失稳剪切强度均有所降低;节理黏聚力减小百分比平均值为36.07%,而内摩擦角变化范围仅在4.12%以内,所以黏聚力降低是节理失稳剪切强度降低的主要原因。(3)以采用应力控制方式进行切向加载试样的拟合摩尔-库仑公式为基准,位移控制方式或其他采用应力控制方式的加卸载应力路径下试样失稳剪切强度的相对误差平均值最大可达55.78%。经引入黏聚力修正系数k对摩尔-库仑准则进行修正后,相对误差平均值的最大值减小到5.23%,说明对经受位移控制方式或采用应力控制方式的其他加卸载应力路径的工程节理来说,进行黏聚力的折减修正是必要和可行的。研究结果对不同控制方式及卸荷应力路径下岩体节理剪切承载能力的准确估计具有一定参考价值。

盾构隧道套筒-直螺栓新型环间接头抗剪性能研究

为在大直径盾构隧道中更好发挥接头的抗剪、定位功能,设计安装于管片环缝螺栓孔处、外套于螺栓的空心套筒,为了探究“直螺栓+套筒”新型环间接头的抗剪性能,以成都锦绣隧道为背景,建立环间接头的三维精细化数值模型,并开展足尺试验对数值模型的计算精度进行验证。结果表明:新型环间接头在抗剪过程中主要分为3个受力阶段:摩擦段、构件抗剪段和破坏失效段,其抗剪刚度随着错台的发展呈现出非线性。套筒对接头的抗剪性能有明显的强化作用,将超过其承载能力的剪切荷载平稳过渡给螺栓,避免了管片突然产生滑移错台,并对管片有一定的保护作用。套筒与直螺栓的受力配合机理为:在管片产生微小错台时,套筒发生弹性变形并承担主要剪力,随着错台量增大,套筒逐渐进入塑性状态,螺栓承担主要剪力。套筒的加入能显著改善环间接头对于微小错台的控制能力,并且由于其自身具备的导向定位功能,能在管片拼装阶段就达到降低错台率和错台量的效果。足尺试验表明新型接头的破坏形式为:套筒、螺栓进入塑性状态而失效,管片发生以螺栓孔为对称中心、与水平方向成30°~45°的对称剪切破坏,管片薄弱区域为螺栓孔附近位于管片内弧面一侧的钢筋混凝土。研究成果将为此类接头今后的工程应用提供参考。

软-硬互层岩体节理峰前循环剪切疲劳损伤机理研究

三峡库区频发微小地震下岩体节理循环剪切疲劳损伤对边坡动力稳定性具有重要影响。通过室内峰前循环剪切试验和PFC2D细观数值计算,研究了考虑一阶起伏角、含水率、剪切速率、剪切幅度、法向应力及循环剪切次数影响的软-硬互层岩体节理宏细观疲劳损伤机理。研究表明:①岩体节理剪切应力-剪切位移曲线历经初始非线性压剪变形、近似线弹性压剪变形、循环剪切疲劳损伤变形、应力缓升压剪变形、应力陡升压剪变形及应力脆性跌落压剪变形六个演化阶段。②岩体节理峰值(残余)剪切强度和疲劳剪切(法向)位移在相同一阶起伏角、含水率、剪切速率、剪切幅度或法向应力下随循环剪切次增多而分别降低和增大;且其在相同循环剪切次数下随一阶起伏角或法向应力变大而分别增大和降低,而随含水率、剪切速率或剪切幅度变大则分别降低和增大。③宏细观结果总体上吻合较好,且岩体节理细观剪切疲劳损伤裂纹数量随剪切位移变化呈前期微增-陡增、中期缓增及后期陡增-缓增-陡增的发展特征,而其随循环剪切次数变化则呈前期陡增和后期缓增的发展特征。④岩体节理宏细观剪切疲劳损伤典型演化过程可概述为压密-起裂破坏、循环错动-贯通破坏及分离-啃断破坏3个渐进性发展阶段,且宏细观剪切疲劳损伤裂纹近似呈“倒U形”密集分布于岩体节理附近。

基于声发射特征参数的砂岩节理直剪破坏特征试验研究

为研究岩石节理直剪破坏特征,借助RDS-200型岩石节理剪切试验系统开展了不同法向应力下砂岩节理剪切试验,并采用Micro-ⅡExpress数字声发射系统进行了声发射信号监测,基于声发射上升时间与幅值之比RA、振铃计数与持续时间之比AF的演化特征对岩石节理剪切破坏过程进行了分析,并探讨了砂岩节理剪切失稳的预警方法。结果表明:(1)根据岩石节理剪切过程的累计振铃计数演化特征,可将岩石节理剪切过程划分为低速增长、加速增长、极速增长和减速增长4个阶段;各法向应力下,AF和RA最大值整体上随阶段序号增加而增大,且RA值较大的信号随阶段序号增加而增多。(2)根据日本混凝土声发射监测规范,提出用于判断拉剪破裂类型阈值k的具体取值方法。发现在各法向应力下阈值k、张拉破裂占比α随剪切阶段序号增加整体上呈降低趋势。(3)岩石节理剪切试验中,声发射参数r值的变异系数CV(r)在剪切应力峰值前整体呈降低趋势,且在剪切应力峰值前均存在低于剪切应力峰值最近的CV(r)值(即预警值CV(r)_(cr))的阶段;预警值CV(r)_(cr)随法向应力增大而先减小后增大,与法向应力具有较好的二次抛物线函数关系;预警提前时间t_(d)与失稳时刻t_(p)之比在5.1%~24.5%之间,可起到提前预警作用。研究结果可为节理岩体的失稳预警及灾害防治提供一定参考。

新型异形钢管混凝土结构可更换剪切板式节点抗震性能研究

提出了一种新型异形钢管混凝土结构剪切板式节点,制作了2个可更换剪切板式梁柱节点进行拟静力试验与有限元分析,获得了2个节点的滞回曲线、延性性能和耗能能力等力学性能指标。研究表明:不同开孔形式的剪切耗能板会造成不同的破坏模式;采用腰孔型剪切耗能板的新型异形钢管混凝土结构剪切板式节点的延性性能和耗能能力较好。在试验和数值模拟的基础上,研究了板件间摩擦系数对节点抗震性能的影响,当摩擦系数增加至0.30时,节点抗震性能更好。

接缝处纵筋连续预制节段梁弯剪受力机理试验研究

基于网格抗剪配筋原理,提出了接缝处纵筋连续预制节段梁概念。设计3根试验梁,将接缝类型作为试验参数,以试件裂缝发展、钢筋应变、破坏模式、刚度、承载力为研究对象,开展弯剪试验。结果表明,接缝处纵筋连续预制节段梁中腹板水平纵筋有效承担了由剪力作用引起的截面上轴向拉力,与箍筋同样起到抗剪作用;腹板水平纵筋在接缝位置处的连续可以更好地抑制斜裂缝的发展,限制主裂缝的宽度,从而有效提高预制节段梁结构的刚度;从试件腹板开裂至试件破坏的整个加载过程中,纵筋连续预制节段梁接缝附近节段受力基本满足平截面假定,各项力学行为与整体梁相似。试验结果充分验证了接缝处纵筋连续是预制节段梁从受力性能上消除“接缝”的必要手段。

凿毛植筋新老混凝土结合面抗剪性能试验研究

新老混凝土结合面是结构整体受力,尤其是剪切受力的关键。以植筋率(0.17%、0.34%、0.51%)和植入钢筋深度(10、15 cm)为变量,制作5组10个Z形试件进行剪切试验,分析植筋率和植入钢筋深度对新老混凝土试件剪切性能的影响规律。结果表明:植筋及整体浇筑试件的破坏面上均伴有骨料剪断和砂浆-骨料脱黏现象,呈典型的脆性破坏特征;植筋试件开裂后,抗剪承载力主要由结合面植入钢筋承担;增加植筋率及植筋深度,试件抗裂性能及抗剪强度均有所提高;整体浇筑试件的开裂、极限剪应力分别为2.98、7.22 MPa,是所有试件的最大值,表明整体浇筑试件的抗裂性能最优,抗剪强度最高。

Comparison between Empirical Estimation by JRC-JCS Model and Direct Shear Test for Joint Shear Strength

In order to study the reliability of the empirical estimation of joint shear strength by the JRC（joint roughness coefficient）-JCS（joint compressive strength） model,natural rock joints of dif-ferent lithologic characteristics and different sizes were selected as samples,and their shear strengths under dry and saturated conditions were measured by direct shear test and compared to those esti-mated by the JRC-JCS model.Comparison results show that for natural rock joints with joint surfaces closely matched,the average relative error of joint shear strength between empirical estimation and direct shear test is 9.9%;the reliability of the empirical estimation of joint shear strength by the JRC-JCS model is good under both dry and saturated conditions if the JRC is determined accounting for directional statistical measurements,scale effect and surface smoothing during shearing.However,for natural rock joints with joint surfaces mismatched,the average relative error of joint shear strength between empirical estimation and direct shear test is 39.9%;the reliability of empirical estimation of joint shear strength by the JRC-JCS model is questionable under both dry and saturated conditions.

节段预制拼装箱梁桥抗剪性能试验研究

湿接缝纵向拼装的方法在节段预制拼装桥梁中得到广泛应用,但是湿接缝结合面抗剪受力性能研究较为缺乏。以某高速公路20 m装配式预应力混凝土简支箱梁桥为背景,设计了节段预制拼装箱梁桥的抗剪性能足尺模型试验,对桥梁湿接缝节段的抗剪性能进行了研究,建立了试件的有限元计算模型。研究结果表明,现浇接缝和相邻节段预制箱梁的挠度在试验初期变形基本一致;当荷载超过600 kN时,挠度差明显增大;当试验荷载达到1 100 kN时,湿接缝与箱梁混凝土的结合面失去传递荷载的能力,试验模型发生破坏;采用节段预制拼装的箱梁桥,其破坏模式是先结合面开裂后湿接缝混凝土开裂破坏;施加并提高纵向预应力,可以提高拼接箱梁桥结合面开裂后的承载能力。

软弱夹层结构面剪切特性各向异性试验研究

【目的】研究不同剪切方向下软弱夹层结构面剪切特性的差异。【方法】选取各向异性特征明显的天然三维结构面形貌,制作了具有不同充填度的含淤泥质黏土结构面试样;基于自主研发的软弱夹层岩石结构面各向异性直剪仪,开展了不同充填度下含有软弱夹层岩石结构面各向异性直剪试验,分析了软弱夹层结构面剪切特性的各向异性规律。【结果】1)不同剪切方向下无充填结构面剪应力剪切位移曲线具有峰前硬化和峰后软化特征,其法向与剪切位移曲线表现出先剪缩后剪胀的变化趋势;2)相同充填度不同剪切方向下软弱夹层结构面剪应力剪切位移变化规律存在差异,且剪应力与剪切位移的峰后软化特征随着充填度的增大逐渐消失;3)同一充填度下结构面峰值抗剪强度随着剪切方向的变化呈现差异;各向异性程度随着充填度增大呈现出先增大后减小的规律;4)同一充填度下软弱夹层结构面法向与剪切位移曲线随剪切方向差异呈现不同的变化规律,剪切特性随充填度增大由剪胀转变为剪缩,各向异性程度降低。【结论】本试验结果对研究岩体滑坡的破坏机理具有一定的参考价值。

基于机器学习的岩石节理面力学性能分析及预测

在岩土及隧道工程中,准确判定破碎岩体的宏观力学性能对工程设计和施工建造至关重要,而不同岩石节理形貌直接影响其宏观力学性能。为了有效界定节理岩体的力学性能,首先将频谱分形维数D和频域幅值积分R_(q)作为节理形貌的量化表征参数,进一步基于傅里叶变换技术,设计了可指定形貌特征的节理重构方法,并结合3D打印技术对包含不同形貌节理的破碎岩石进行了直剪试验,验证了所采用的数值模拟方法的准确性。在此基础上,对不同节理形貌的岩石力学性能开展参数分析,研究结果表明分形维数D和频域幅值积分R_(q)是能有效量化和评价节理形貌的参数。最后基于遗传算法改进的BP神经网络,构建了分形维数D、频域幅值积分R_(q)、法向压力、摩擦系数与破碎岩石力学性能之间的映射关系,形成了一种考虑节理形貌特性的破碎岩石力学性能智慧预测方法。

型钢剪力架增强混凝土板柱节点抗冲切试验研究

研究型钢剪力架增强钢筋混凝土板柱节点的抗冲切性能,得到型钢剪力架设计的优化方案。考虑型钢的翼缘厚度、腹板厚度、伸臂长度、锚固栓钉规格不同,设计9个板柱节点试件进行反向静力模拟加载试验,考察试件的破坏历程和破坏形态,量测节点的承载力、变形和应变等指标,调查不同设计组合对板柱节点抗冲切破坏模式和承载力的影响规律,阐明其失效破坏机制。结果表明:型钢剪力架能够提高板柱节点的抗冲切性能,改善冲切破坏的脆性特点;设置型钢翼缘、锚固栓钉能够强化节点内纵筋、型钢和混凝土的协同工作,增加型钢腹板厚度和设置翼缘均可在一定程度上提高板柱节点的抗冲切承载力和延性能力;锚固栓钉代替型钢翼缘可改善板柱节点的抗冲切承载力,但在改善延性方面的效果不如带翼缘试件;增加翼缘厚度来提升承载力存在边际效应,型钢伸臂长度太短难以发挥型钢剪力架的抗冲切增强作用。参考现有规范方法以及试验结果,提出了型钢剪力架增强混凝土板柱节点抗冲切承载力计算方法。

软弱夹层倾斜结构面剪切试验及抗剪强度模型研究

含软弱夹层倾斜结构面的剪切特性与倾斜角、充填度密切相关,为了获得具有起伏形貌的含软弱夹层倾斜结构面的剪切特性,采用多功能岩土体接触破损测试系统,开展了针对起伏形貌的含软弱夹层倾斜结构面试样的直剪试验。试验结果表明:(1)不含软弱夹层的倾斜结构面剪应力–剪切位移曲线具有峰值剪断特征;含软弱夹层倾斜结构面剪应力–剪切位移曲线具有滑动破坏特征。(2)充填度不同时,倾斜结构面法向位移随剪切位移增大而增大,变化率逐渐增大并趋于稳定,呈剪胀效应特征;倾斜角不同时,结构面法向位移均随着剪切位移的增大而增大,并且法向位移前期增长率明显小于后期增长率。(3)倾斜结构面抗剪强度随充填度的增大呈负指数减小;随倾斜角和法向应力的增大近似呈线性增大。(4)考虑软弱夹层材料、充填度及倾斜角对抗剪强度的影响,在Barton抗剪强度模型的基础上,建立了适用于含软弱夹层倾斜结构面抗剪强度模型。研究成果可为工程岩体稳定性评价提供参考。

节理剪切试验及其表面形貌特征变化分析

节理表面形貌是影响节理抗剪强度的重要因素之一。采用试验方法研究岩石节理表面形貌与其抗剪强度之间的关系;运用RYL-600岩石剪切流变仪对天然岩石节理在不同法向应力下进行剪切试验,得到不同法向应力下节理的抗剪强度曲线,并运用TALYSURF CLI 2000扫描仪将节理表面在每次剪切前后进行高精度激光扫描测试,得到岩石节理表面的三维扫描图。分析节理在不同法向应力作用下的抗剪强度与节理表面形貌变化的关系,计算岩石节理表面轮廓平均角的加权平均值p,发现随着法向应力的增加,节理峰值抗剪强度增加,随着剪切次数增加,p呈减小趋势。说明节理的抗剪强度与法向应力和节理表面形貌特征参数p有关。

空心板混凝土铰缝抗剪性能试验研究

为了研究空心板普通混凝土铰缝的抗剪性能,设计了测试铰缝抗剪性能的试验。对混凝土铰缝试件施加单调试验荷载,观察在剪力作用下试件受力全过程及破坏形态。试验表明,在试验加载作用下,设置抗剪钢筋的试件会在混凝土块和铰缝的结合面处开裂,而后抗剪钢筋屈服,试件破坏;抗剪钢筋不能提高混凝土铰缝开裂时的抗剪强度,但是试件开裂后能继续承受剪力,并提高铰缝的抗剪承载力。综合室内铰缝试件抗剪试验结果和相关文献研究成果的分析,建议了结合面光滑情况下的混凝土空心板铰缝抗剪强度和承载力的计算公式。