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1.
《岩土力学》2017,(9):2728-2736
非贯通节理岩体的强度特性是大型边坡、隧道等工程安全性的重要影响因素。随着酸雨、河流污染等对岩石环境劣化程度的加剧,考虑环境劣化因素对非贯通节理岩体强度的影响很有必要。采用离散元法,基于已有的胶结接触模型,将岩体因环境作用而劣化等效为岩石试样质量损失不断加剧的过程,最后等效为颗粒和颗粒之间的物质不断溶蚀的过程,由此建立考虑环境劣化的微观接触模型并将其植入离散元软件中,模拟分析了不同环境劣化程度的非贯通节理岩体在不同连通率和不同法向应力下的直剪试验。结果表明:不同环境劣化程度非贯通节理岩体剪切应力-位移曲线趋势一致;随环境劣化程度的加深,节理岩体的破坏形式以拉裂纹为主转变为以剪切裂纹为主;环境劣化使得节理岩体直剪试验起裂应力降低,且环境劣化程度的加深会导致非贯通节理岩体的凝聚力降低及内摩擦角减小,表现为峰值剪切强度降低。 相似文献
2.
鉴于目前关于节理岩体力学参数空间变异性表征及存在潜在滑移面边坡的可靠性问题研究较多,但对于岩质边坡力学参数空间变异性影响及开挖卸荷响应(变形与塑性区)不确定性分析的研究较为有限。提出考虑力学参数不确定性的岩质边坡开挖卸荷响应概率评价方法,该方法以室内岩石力学试验及现场地质勘察测绘数据为基础,利用Hoek-Brown经验准则与Monte Carlo分析手段,构建了以岩石单轴抗压强度(uniaxial compressive strength,简称UCS)、地质强度指标(geological strengthindex,简称GSI)和节理工程参数为输入的边坡岩体力学参数概率统计模型,并采用卡方检验进行模型的吻合度检验;基于点估计原理构建岩体力学参数组合方案,并结合数值模拟开展边坡开挖过程的仿真分析,获得边坡开挖后整体安全系数及位移及塑性区的概率分布。利用该方法对在建京秦高速沿线某路堑边坡岩体力学参数及开挖卸荷响应进行分析,得到了岩体强度、弹性模量、黏聚力与内摩擦角的取值及不确定性分布,采用点估计与FLAC3D模拟分析,得到了边坡安全系数及典型观测点的位移与塑性区分布结... 相似文献
3.
岩体在加载和卸荷条件下,其力学性质有本质的区别。采用数值模拟方法,以ADINA软件为计算平台,研究了卸荷条件下,锚固密度、锚杆长度和岩体性质3个因素对节理岩体力学参数的影响。采用等效变形参数的方法计算节理岩体和锚固体的等效变形模量和泊松比。在分析数值计算结果的基础上,分析了加锚后等效变形模量En与锚固密度N和锚杆长度L之间的关系。 相似文献
4.
加锚节理岩体有着复杂的细部结构和力学行为,常规的数值模型很难满足模拟这种力学行为的要求。进一步发展了笔者建立的加锚岩体的复合单元法,提出加锚节理岩体的复合单元法研究。在不考虑锚杆、节理等细部结构的情况下划分网格,分别定义了加锚岩体复合单元、不连续岩体复合单元和加锚节理岩体复合单元,并建立了其数值模型。同时,在复合单元中还定义了不同材料介质的子单元用来模拟加锚节理岩体内复杂的细部构造。对加锚节理复合单元法进行了理论推导和算例研究,通过与常规有限单元法计算结果的比较,表明了加锚节理岩体复合单元法的合理性,同时也突出体现了其前处理简便的优势。 相似文献
5.
《地质科技情报》2016,(5)
对火山玄武岩破碎后形成的6个粒组区间的试样依规范进行直剪试验,得出不同相对密度下的内聚力和内摩擦角试验数据;根据抗剪强度参数的统计结果,按Chauvenet法剔除粗差数据,并评价变异性,以提高数据的准确性和可靠度。对试样在不同的相对密度下和不同粒组区间的力学规律进行对比、研究分析后得出:模拟月壤的内聚力为0.33~5.5kPa,内摩擦角为29.1°~35.65°;抗剪强度参数与颗粒粒径、密度具有较好的线性关系;颗粒粒径决定了密度的变化范围,这导致了抗剪强度参数在密度的一定的范围内随之变化,而总的变化趋势却是由粒径来控制的。根据以上结论,按一定颗粒级配研制模拟月壤混合样,其内聚力为0.16~1.59kPa,内摩擦角为34.8°~45.5°,符合真实月壤的实际情况。可为后续的模拟月壤研制和性能评估提供参考。 相似文献
6.
锚杆能够显著增强顺层岩质边坡的稳定性.基于顺层边坡结构效应,应用锚杆加固顺层边坡的力学模型,根据结构力学理论和变形协调关系,建立拉剪作用下全长粘结型锚杆加固顺层边坡抗剪计算的理论分析方法.与相关试验数据进行了比较验证,结果表明顺层边坡锚固抗力模型计算结果与试验结果比较一致,验证了理论模型的合理性.讨论了锚杆倾角、锚杆直径、灌浆体强度、结构面内摩擦角、剪胀角等对加锚顺层岩体抗剪性能的影响.分析表明:锚杆锚固抗力模型能够较好地反映锚杆轴力及横向剪切力对顺层岩质边坡的抗剪作用.锚杆倾角越大,锚杆总的抗力呈减小趋势,而锚杆抗力随剪胀角增大而增加;当锚杆倾角等于内摩擦角时,锚杆抗力达到最大;锚杆抗力随锚杆直径增加而增大;当锚杆直径不变时,锚杆抗力随灌浆体抗压强度增大而有所减小. 相似文献
7.
8.
《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
9.
我国胶东地区广泛分布白垩系泥岩地层,其具有遇水软化、膨胀,失水收缩、崩解等工程特性,岩体抗剪强度的准确确定对该区域基坑、边坡稳定性设计和施工具有重要意义.通过开展现场岩体抗剪试验和室内岩石直剪试验,得出岩体与岩石内摩擦系数和内摩擦角基本一致,岩石黏聚力是岩体黏聚力的10.6倍,分析二者差异原因主要有岩石直剪试验岩样代表... 相似文献
10.
结合岩石节理面非线性Barton-Bandis破坏准则,探讨了将Barton-Bandis破坏准则参数转化为线性Mohr-Coulomb破坏准则抗剪强度参数的两种常用方法,通过实例分析了各方法的优劣。推导了加锚单岩石节理面控制的平面滑动岩体边坡抗滑稳定性安全系数计算式,开展了锚固参数分析。研究表明:相对于采用等效线性拟合法或切线等效法获取Mohr-Coulomb抗剪强度参数而言,直接应用Barton-Bandis破坏准则计算节理面控制的岩石边坡稳定性更为直观和简便;随着结构面基本摩擦角、结构面粗糙度系数和结构面壁面有效抗压强度的增大,边坡安全系数逐步提高,且结构面基本摩擦角和粗糙度系数对边坡安全系数的影响程度更为显著;锚索锚固力越大,边坡抗滑稳定性越好,而锚索设置角度越大,边坡抗滑稳定性越低,锚索角度设置不当将明显减小锚固效应的有效性。 相似文献
11.
单一预制节理试件各向异性力学特性试验研究 总被引:1,自引:0,他引:1
节理岩体具有特殊的不连续结构,从而展现出复杂的各向异性力学特性。为了掌握这一复杂力学特性,从理论上分析了单一节理面的力学效应,并通过常规三轴压缩试验研究了单一预制贯通节理试件的各向异性力学特性。结果表明,节理试件的力学特性分为受节理面控制和岩块控制;与完整试件相比,节理试件的力学参数均有不同程度降低,其中弹性模量、抗压强度、黏聚力随节理倾角呈U型分布,最小值均出现在60°倾角节理试件,而内摩擦角与节理倾角呈线性增大关系;随着围压等级升高,不同倾角节理试件弹性模量和抗压强度的最大值与最小值的比值降低,力学性能差异减小。 相似文献
12.
Parametric study of the smooth‐joint contact model on the mechanical behavior of jointed rock 
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下载免费PDF全文 The smooth‐joint contact model based on distinct element method has been widely used to represent discontinuity in the simulation of fractured rock mass, but there is rare efficient guidance for the selection of proper parameters of smooth‐joint contact model, which is the basement for using this model properly. In this paper, the effect of smooth joint parameters on the macroscopic properties and failure mechanism of jointed rock under triaxial compression test is investigated. The numerical results reveal that the friction coefficient of smooth joint plays a dominant role in controlling mechanical behaviors. The stiffness of smooth joint has a relative small influence on the mechanical behaviors. Poisson ratio decreases with the reduction of normal stiffness but increases with the reduction of shear stiffness. The reduction of smooth joint strength, which is determined by normal strength, cohesion, and friction angle of smooth joint, contributes to the breakage of bonded smooth joint and ultimately decreases the strength of the specimen. We proposed a detailed calibration process for smooth‐joint contact model according to the relationship between smooth‐joint parameters and mechanical properties. By following this process, the numerical results are validated against corresponding experimental results and good agreement between them can be found in stress‐strain curves and failure modes of different joint orientations. Further analyses from the microperspective are performed by looking at transmission of contact force, the nature and distribution of microcracks, and the particle displacement to show the failure process and failure modes. 相似文献
13.
结构面抗剪强度参数对岩质边坡稳定的影响 总被引:2,自引:2,他引:2
边坡工程中,结构面抗剪强度是非常重要的力学参数,合理地选择确定抗剪强度的方法,常常要分析c、值在边坡稳定中的作用。根据极限平衡原理,对10~30m高的平面滑动型边坡不同抗剪强度的控稳结构面c、值在边坡稳定中的作用进行了定量分析。研究表明c值对稳定系数的影响随坡高增大逐渐减弱,值对稳定系数的影响随坡高增大逐渐增强。得到了不同坡高下c、值边坡稳定作用等值曲线,该曲线很容易确定抗剪强度参数c、值在边坡稳定中的作用。 相似文献
14.
Modeling strategy for jointed rock masses reinforced by rock bolts in tunneling practice 总被引:2,自引:1,他引:1
Shunsuke Sakurai 《Acta Geotechnica》2010,5(2):121-126
This paper deals with the modeling of jointed rock masses reinforced by rock bolts. It is well known that rock bolts are extremely
effective in reinforcing jointed rocks. However, if a continuum approach is adopted for modeling jointed rock masses, it is
often misleading to evaluate the effectiveness of the rock bolts by numerical analyses such as the finite element method.
This may be due to the fact that since no more joints exist in the continuum, the effectiveness of the rock bolts in constraining
the relative displacements along the joints cannot be evaluated properly. In order to investigate the reinforcement effect
of rock bolts, physical model tests were performed in the laboratory. The test results revealed that jointed rock masses should
be modeled as an equivalent continuum after the installation of rock bolts and that the mechanical parameters of the equivalent
continuum should be evaluated by considering the reinforcement effect of the rock bolts. Therefore, the values of the mechanical
parameters differ from place to place in accordance with the relation between joint orientation and rock bolt direction, even
though joint systems are homogeneous. In conclusion, in the continuum approach for modeling jointed rock masses, it should
be emphasized that rock bolts and jointed rock masses should not be modeled separately but should be modeled simultaneously
by considering the reinforcement effect of the rock bolts in constraining joint movement. The modeling of shotcrete reinforced
by steel ribs is also discussed in comparison to the modeling by rock bolts. 相似文献
15.
节理岩体的剪切特性是主导岩体工程稳定性的关键因素。基于PFC2D离散元颗粒流程序,结合室内试验结果对比分析,选取合理的细观参数进行数值模拟,分别从细观角度研究了节理岩石的裂纹发展、能量转化及声发射现象等特性,从宏观角度研究了节理岩石的强度模型和破坏形态。结果表明:节理岩体主要呈现磨损和剪断两种破坏形态,不同的破坏形态对应不同的强度模型;随着剪切变形增加,岩体沿节理面发生破坏,弹性阶段以法向裂纹为主,而塑性阶段切向裂纹起主导作用,滑移区R、P裂纹贯通形成破碎带,节理面产生较大滑移;在应力达到峰值强度前,边界能主要转化为应变能,法向裂纹生成较多;越过峰值强度后,摩擦能快速增长,并伴随大量切向裂纹产生。与室内试验结果相比,PFC2D较好地模拟了节理岩体剪切力学特性,弥补了室内试验中无法进行细观特性研究的缺陷,对于节理岩体后期研究提供了一些参考。 相似文献
16.
强度变化对崩坡积体堆积机制及稳定性影响研究 总被引:3,自引:0,他引:3
利用颗粒流PFC2D建立了岩土体物理模型,在此基础上设计了均以物理模型折减计算初始模型和以前一折减计算结果为下次折减计算初始模型两类计算条件,每一类又设计了只对凝聚力折减、仅对内摩擦角折减、强度参数同时折减3种计算方案,每种计算方案又包含折减1.0、0.50、0.10、0.01、0.0倍等5个计算工况。经对坡面演替、监测点x方向速度变化曲线等计算结果的对比分析发现:凝聚力对于岩土体的直立特性起控制作用,破坏模式多为崩塌倾倒模式;内摩擦角对于稳定坡角具有重要影响;强度参数同时衰减时,强度参数弱化幅度较大情况下岩土体呈散体物质破坏模式,为滑移渐进破坏模式,其中凝聚力弱化0.1倍前后(约10 kPa)后,破坏模式由崩塌破坏转变为滑移破坏。 相似文献
17.
Back analysis of an excavated slope failure in highly fractured rock mass: the case study of Kargar slope failure (Iran) 总被引:2,自引:1,他引:1
Mostafa Sharifzadeh Mohsen Sharifi S. Mohammad Delbari 《Environmental Earth Sciences》2010,60(1):183-192
This paper examines the failure of Kargar cut slope located at the south part of Esfahan subway using analytical and numerical
back analysis methods. The excavated trench has 27 m depth with near vertical walls due to the space limitation around it.
The geology of the area comprises weathered and heavily jointed shale and sandstone overlaid by alluvium deposits. Despite
the slope being supported by shotcrete and fully grouted rock bolts, a catastrophic failure occurred at the east wall. Due
to the uncertainty about the causes of failure initiation, back analyses have been performed via both the limit equilibrium
and numerical method for considering various probable mechanisms. In the back analysis with limit equilibrium method, the
rock mass is assumed as an equivalent continuum and Hoek–Brown failure criterion and geological strength index (GSI) are applied
to calculate the shear strength parameters. The results show that GSI value was 33 in the failed mass. In the numerical back
analysis, the distinct element method is applied to study the contribution of rock joints to the failure and progressive rock
mass strength degradation until failure. The results show that threshold values of joint cohesion and friction were 0.2 MPa
and 30°, respectively. Also the modeled slip surface being step-shaped agrees with the observed one. 相似文献
18.
为了研究加锚贯通节理岩体的剪切破坏特性,根据室内实验及数值模拟软件PFC2D,分析了不同法向应力及不同锚固角度作用下,加锚贯通节理岩体的抗剪性能及内部细观裂纹的演变过程。研究表明:(1)随着锚固倾角的增加,加锚节理岩体抗剪强度呈现先增大后减小的趋势,且在锚固角度为60°时,其抗剪强度最大,锚固效果最好。随着法向应力越大,加锚节理岩体抗剪强度越高,其抗剪性能越好。(2)随着剪切位移的不断增加,由初期阶段在锚杆和节理附近产生的少量裂纹通过不断的向外扩展,最终在锚杆和节理交界处聚集了大量的裂纹,其中裂纹以张拉裂纹为主。(3)锚固角度及法向应力对裂纹扩展影响显著,随着法向应力的增加,裂纹数也呈现了增加的趋势,且岩体破坏越严重。随着锚固角度的变化,加锚节理岩体破坏时形成的裂纹数量有先减小后增大的趋势,且在锚固角度为60°时,产生的裂纹最少。 相似文献
19.
A Numerical Study on Wave Transmission Across Multiple Intersecting Joint Sets in Rock Masses with UDEC 总被引:1,自引:1,他引:0
This paper presents a numerical study on wave transmission across jointed rock masses with UDEC, where multiple intersecting joint sets exist. The capability of UDEC of studying wave transmission across rock joints is validated through comparison with analytical solutions and experimental data. Through parametric studies on wave transmission across jointed rock masses, it is found that joint mechanical and spatial parameters including joint normal and shear stiffnesses, nondimensional joint spacing, joint spacing ratio, joint intersecting angle, incident angle, and number of joint sets together determine the wave transmission. And for P wave incidence, compared with other parameters, joint normal stiffness, nondimensional joint spacing, and joint intersecting angle have more significant effects on wave transmission. The physical reasons lying behind those phenomena are explained in detail. Engineering applications and indications of the modeling results are also mentioned. 相似文献
20.
对于一种确定的岩体材料而言,岩体的变形参数与强度参数存在一种必然的内在联系。从材料性质来看,强度折减法的本质就是在当前边坡构型和岩体重度条件下,寻找另一种合适的岩体材料使边坡恰好达到临界状态。显然,若只对黏聚力和内摩擦角进行折减而其他参数保持不变,折减后的材料参数则可能违背岩体强度与变形参数之间存在的必然联系,即新找到的岩体材料客观上不存在。因此,在对黏聚力和内摩擦角进行折减时,有必要对岩体的其他力学参数进行调整。基于以上认识,提出了一种考虑变形与强度参数协调折减的强度折减法,探讨了变形参数(弹性模量和泊松比)、抗拉强度对安全系数、塑性区的影响,结果表明,同时考虑变形参数与强度参数协调折减的方案所得的安全系数最小,与极限平衡法的计算结果最为接近,且该方案所得的剪切塑性区主要集中在临空面附近,边坡模型中下部的剪切塑性区范围较小,同时,在边坡顶部区域出现张拉屈服区,此种塑性区分布范围最接近边坡实际破坏状态。 相似文献