共查询到20条相似文献,搜索用时 250 毫秒
1.
盾构穿越砂卵石地层地表沉降特征细宏观分析 总被引:2,自引:0,他引:2
以成都砂卵石地层中地铁1号线的土压平衡盾构掘进施工为研究背景,采用室内试验、PFC2D二维颗粒流程序和 Plaxis 3D有限元软件对盾构穿越砂卵石地层地表沉降特征进行了细宏观数值模拟,揭示了土压盾构穿越砂卵石地层的失稳机制和沉降规律,并结合实际施工参数和实测地表沉降数据进行了对比分析,获得了土压盾构在砂卵石地层中掘进引起的地表横向沉降槽和纵向沉降槽曲线,分析了不同大小的开挖面土仓压力和盾尾注浆压力对地表沉降的影响,给出了砂卵石地层开挖面土仓压力的建议值和盾尾注浆压力参数的合理取值范围。细宏观分析表明,与注浆压力相比较,土仓压力对地表最大沉降曲线的形状影响较小;但必须关注土仓压力的变化,在砂卵石地层中由于土拱效应对开挖面稳定性影响较大,甚至发生突然坍塌破坏。 相似文献
2.
采用?800 mm模型土压盾构开展室内掘进试验,以探究砂卵石中土压盾构隧道掌子面失稳诱发地层变形特征。同时,补充开展三维离散元仿真以挖掘室内试验难以获取的掌子面失稳信息,并研究隧道埋深对掌子面稳定性的影响规律。研究结果表明:砂卵石地层中盾构隧道掌子面失稳发展到地表后,沉降曲面呈上大下小逐步收缩的沙漏状,影响范围小于砂土地层。考虑盾构动态掘进过程后,卵石颗粒接触关系变化十分剧烈,掌子面稳定性被削弱,极限支护压力随之增大。掌子面极限支护压力随隧道埋深基本呈线性增加,极限支护压力与初始支护压力之比则随埋深增大而减小。掌子面失稳机制可根据隧道埋深划分为3种模式。与既有研究相比,考虑了盾构动态掘进过程与实际工程更加接近,可为确保砂卵石地层土压盾构隧道施工掌子面稳定提供参考。 相似文献
3.
隧道斜交穿越地裂缝的模型试验研究 总被引:1,自引:0,他引:1
西安地区由北向南间隔分布有十多条近东西走向的地裂缝,建设中的多条地铁线路与地裂缝呈斜交状态。为了揭示地铁隧道斜交穿越地裂缝时受地裂缝活动而产生的力学性状变化,采用50:1几何相似比尺的物理模型试验仪,在合理模拟围岩地层、衬砌结构、应力条件、地裂缝与洞轴线交角及其错动位移基础上,开展了斜交地裂缝活动条件下隧道衬砌结构与围岩相互作用的物理模型试验研究,并与正交地裂缝活动下的测试结果进行了对比分析。表明斜交地裂缝活动对地铁隧道的影响范围更大,各变形缝均有明显的沉降差发展;邻近斜交地裂缝的衬砌结构易处于“悬臂梁”受力状态,衬砌结构不均匀沉降使其产生旋转位移,围岩土压力变化使衬砌结构内力产生显著变化;随着地裂缝错动位移的发展,上盘内拱顶和下盘拱顶、拱底出现围岩作用的加强,而上盘拱底出现围岩作用的松弛。与隧道正交穿越地裂缝的情况比较,斜交穿越地裂缝时围岩土压力和衬砌结构内力变化更大,易出现拉裂破坏。 相似文献
4.
Controlling the face stability of shallow shield tunnels is difficult due to the inadequate understanding of face failure mechanism. The failure mechanism and the limit support pressure of a tunnel face in dry sandy ground were investigated by using discrete element method (DEM), which has particular advantages for revealing mechanical properties of granular materials. The contact parameters of the dry sand particles were obtained by calibrating the results of laboratory direct shear tests. A series of three-dimensional DEM models for different ratios of the cover depth to the diameter of the tunnel (C/D = 0.5, 1, and 2; i.e., relative depth) were then built to simulated the process of tunnel face failure. The limit support pressure, failure zone and soil arching were discussed and compared with other methods. The results of DEM simulations show that the process of tunnel face failure can be divided into two stages. With the increase of the horizontal displacement of the tunnel face, the support pressure decreases to the limit support pressure and then increases to the residual support pressure. The limit support pressure increases with the rise of relative depth and then tends to be constant. In the process of tunnel face failure, the failure zone is gradually enlarged in size and expands to the ground surface. The numerical results also demonstrate that soil arching occurs in the upper part of the failure zone and the soil becomes loosened in the failure zone. Consequently, the comprehensive analysis of tunnel face failure may help to guarantee safe construction during tunneling. 相似文献
5.
Centrifuge model test on the face stability of shallow tunnel 总被引:2,自引:2,他引:0
This paper is an investigation of face stability on a small-scale tunnel model in a geotechnical centrifuge. By making use
of symmetry, half of the tunnel cross section was considered. The support at excavation face was provided by a piston, which
was adjusted during flight. Some aspects on the collapse at tunnel face are investigated for different overburden pressures:
failure mechanism, surface settlement, stress acting at tunnel face, and the required face support counteracting the earth
pressure. Ground deformation was observed through a transparent wall and measured by digital image correlation. The results
from centrifuge model tests were compared with theoretical models. 相似文献
6.
With increased demand for the tunnel construction in rock–soil interface composite formations, the influence on surrounding environment especially the excavation face instability during construction and ground settlement in the long term has gained great attention. The researches about environmental disturbance by shield tunneling construction in single ground as the soil or rock conditions have been developed continuously. However, due to the complexity and uncertainty of the interaction between rock–soil interface composite formations and shield machines, works on these special conditions have not been carried out sufficiently. In this paper the theoretical, experimental and numerical researches on the excavation face stability and ground settlement are discussed while the in situ datum are used to support them. First, the typical projects in rock–soil interface composite formations are listed and the difficulties met are summarized. Second, the failure model of excavation face and support pressure from the tunneling shield in rock–soil interface composite formations are discussed. Then, a comprehensive survey of the factors of ground settlement during and after construction and some effective prediction models are made. Finally, the existing problems and directions for future research are introduced. 相似文献
7.
通过开展离心模型试验,对干粉砂及饱和粉砂中盾构隧道开挖面的失稳破坏特性和极限支护压力进行了研究。通过远程控制开挖面土体位移,获得了支护压力与开挖面位移间的关系曲线及开挖面达到主动极限平衡状态时的破坏模式。2组干砂离心模型试验结果表明,当隧道埋深与隧道直径比从0.5增大到1时,开挖面破坏模式从整体坍塌破坏转变为烟囱状,但极限支护压力变化较小。饱和砂土中的试验表明,开挖面水平方向破坏范围相比在相同埋深干砂中的范围扩大,极限支护压力显著增加。对开挖面破坏过程进行三维弹塑性有限元数值模拟,获得了开挖面极限支护压力和破坏机制,所得结果与试验吻合较好。进一步通过数值模拟,分析了土体强度参数、隧道埋深及渗流对极限支护压力的影响规律。结果表明,渗流条件下开挖面破坏区域及极限支护压力均大于无渗流情况,极限支护压力随内摩擦角增大而减小,随隧道埋深增大而减小。 相似文献
8.
城市地铁隧道施工不可避免地对围岩产生扰动引起地表沉降,动态预测隧道开挖引起的地表沉降是确保地表建构筑物与隧道施工安全的重要基础。针对隧道施工过程中地表沉降难以准确动态预测的问题,在定义纵向开挖度系数? 的基础上,建立横向地表沉降动态预测模型。该模型能够描述同一监测位置沉降曲线随掌子面推进而不断变化的规律,实现施工现场沉降动态预测。结果表明:在特定约束条件下,该模型能够退化为Peck模型以及随机介质理论预测模型;通过现场施工验证了该动态预测模型的准确性与适用性;基于纵向开挖度系数? 将隧道沿纵向分为强烈、中度和轻度共3个影响段,较好地反映了开挖掌子面在不同位置对同一监测截面的影响程度;通过分析建筑物和隔离桩对地表沉降曲线的影响可知,建筑物与其附近地层呈现出协同变形、共同承载的特征,在隧道一侧添加地质钻隔离桩对该侧地表沉降值的减小程度可达71.9%。研究成果对滇中引水工程现场施工与类似工程具有一定指导和借鉴意义。 相似文献
9.
由岩溶塌陷、隧道开挖等方面引起的土体变形往往会对基础建设和基础结构等造成不均匀沉降、地面塌陷及开裂等危害,确定土体结构顶部松动土压力的分布情况并准确地分析土体变形与土拱效应间关系显得尤为重要。为了揭示土体变形和沉降对结构顶部松动土压力的变化规律,进行了一系列不同H/B的活动门试验(H为地基高度,B为活动门宽度)。基于试验结果,提出以三角形作为力学模型分析不同滑移面时松动土压力的数学模型,考虑了滑移面角度与土体变形及主应力偏转三者之间的关系,分析了滑移面内任意水平微分土条的主应力偏转情况并建立受力平衡微分方程,根据不同滑移面形态下的边界条件求解松动土压力理论公式,与已有试验结果对比验证了理论公式的合理性。通过对滑移面角度、侧向土压力系数和内摩擦角等主要参数进行分析,结果表明:在较小相对位移下(1%~3%)土体应力迅速发生转移和重分布,初始滑移面角度略小于π/4+φ/2(φ为内摩擦角),随着H/B增大土体应力比缓慢增长最终趋于稳定;地基内封闭三角形滑移面的松动土压力与相对位移及内摩擦角相关;内摩擦角的增加使得土拱效应得到充分发挥,加强了应力转移,降低了土拱应力比;内摩擦角的增大减小了水平向... 相似文献
10.
对地面出入式盾构法隧道施工引起的土体垂直变形计算方法进行研究。考虑盾构轴线与水平面的夹角 (即隧道埋深变化),对林存刚公式进行修正,结合正面附加推力、盾壳摩擦力、附加注浆压力和土体损失的共同作用,提出全新的土体垂直变形计算公式。算例分析结果表明:在隧道埋深较浅工况下,新方法计算结果与林存刚公式的计算结果差异较大,新方法计算得到的开挖面前方地面隆起和后方地面沉降均较大;盾构上仰掘进时,随着 增大,由正面附加推力、盾壳摩擦力及土体损失引起的纵向土体垂直变形曲线呈上移趋势,由附加注浆压力引起的纵向土体垂直变形曲线则呈下移趋势;地面沉降最大值变小,但地面横向沉降槽范围逐渐变大。 相似文献
11.
盾构施工中土体损失引起的地面沉降预测 总被引:10,自引:0,他引:10
土质软硬决定了隧道周围土体的移动方向,移动焦点在隧道中心点与隧道底部位置之间变动。采用两圆相切的土体损失模型,通过引入移动焦点的坐标参数,建立了统一的土体移动模型,该模型能将Park模型与Loganathan模型包括在内。假定土体不排水,利用源汇法推导了由土体损失引起的地面沉降通用计算公式,该方法适用于施工阶段。算例分析表明该方法的计算结果与实测值非常吻合,适用于各种土质条件。Loganathan公式只适用于土质较差的情况,当土质较好时计算得到的地面沉降量要比实测值偏小。 相似文献
12.
建立了包括地层模型、桩基荷载模型、浅埋隧道开挖模型和支护模型以及桩基荷载、地层压力、地层沉降、支护应变量测装置的平面应变模型试验系统;通过模型试验,研究了不同水平、竖向相对位置处的既有桩基荷载对附近浅埋隧道开挖引起的地层压力重分布、地层沉降及隧道支护内力的影响特征。另外,采用FLAC3D软件,对模型试验及不同工况进行了数值模拟。结果表明:(1)与没有桩基荷载的自由地层中的隧道开挖试验相比较,地层中的既有桩基荷载会明显地改变邻近浅埋隧道开挖引起的地层压力重分布、地层沉降及隧道支护内力;(2)对于桩径和水平相对距离都相同,但桩长不同的桩基荷载,桩长与隧道埋深比值为1.0时,对隧道开挖效应影响最大,二者比值小于1.0时,其影响程度随着比值的减小而减小,二者比值大于1.0时,桩长的改变对隧道开挖效应影响较小;(3)对于桩径和桩长都相同的桩基荷载,对地层压力、地层沉降及支护内力的影响随桩基荷载与隧道的水平距离的减小而增大,桩基荷载距隧道的水平距离与隧道直径比值介于0.5~4.0时,桩基荷载对隧道开挖效应影响较大,隧道较危险,比值介于4.0~6.0时,影响较小,比值>6.0时,影响可以忽略不计。 相似文献
13.
Ansgar Kirsch 《Acta Geotechnica》2010,5(1):43-62
Various models have been proposed for the prediction of the necessary support pressure at the face of a shallow tunnel. To
assess their quality, the collapse of a tunnel face was modelled with small-scale model tests at single gravity. The development
of the failure mechanism and the support force at the face in dry sand were investigated. The observed displacement patterns
show a negligible influence of overburden on the extent and evolution of the failure zone. The latter is significantly influenced,
though, by the initial density of the sand: in dense sand a chimney-wedge-type collapse mechanism developed, which propagated
towards the soil surface. Initially, loose sand did not show any discrete collapse mechanism. The necessary support force
was neither influenced by the overburden nor the initial density. A comparison with quantitative predictions by several theoretical
models showed that the measured necessary support pressure is overestimated by most of the models. Those by Vermeer/Ruse and
Léca/Dormieux showed the best agreement to the measurements. 相似文献
14.
The failure mechanism and limit support pressure are essential factors for the stability assessment of tunnel face during shield tunneling. Previous studies were mostly based on the assumption that soil fails when the plastic limit is reached. The static liquefaction of saturated sand at pre-failure state often largely reduces shear strength; a stable tunnel face could be destabilized and even collapses abruptly. This paper aims to explore the static liquefaction failure of tunnel face in saturated sands by 3D discrete element simulation. The particle shape is considered by using clump composed of two identical spheres, and the micro-material parameters are calibrated by fitting against triaxial tests. The tunnel face is initially supported by the earth pressure at rest, and then the pressure is reduced by applying a displacement on the free surface until soil body completely collapses. The second-order work during the unloading process is calculated, and a negative value denotes the initiation of static liquefaction. The distribution of negative second-order work point shows the initiation and propagation of static liquefaction. The ultimate failure mode is shown to be composed of a sliding wedge and an overlying chimney, and the chimney is confined to a local area for soil arching. The experienced stress path of tunnel face verifies the existence of static liquefaction instability, indicating the stability analysis should consider static liquefaction rather than simply using the conventional plastic limit state analysis.
相似文献15.
为精确模拟海底盾构隧道掘进过程的施工力学效应,以厦门地铁2号线海底盾构段工程为依托,建立盾构机-注浆体-围岩-海水相互作用的三维数值模型,全面考虑施工影响因素,如开挖面泥水压力、千斤顶推力、盾构机超挖、机身与土体相互作用、注浆压力、海水压力、壁后注浆的时空变化性质等,通过计算结果与实测的验证后,对开挖面支护压力、地层损失率、注浆压力和千斤顶力等4种因素进行参数变化分析。结果表明:初期管片水土压力受到的施工扰动较为强烈,之后先大幅快速下降,降幅在100kPa左右,再缓慢降低,降幅在20kPa左右,最后趋于稳定;开挖面支护压力设为320kPa左右最为合理,增大支护压力,仅对开挖面前方一定范围内土体变形有影响,由于埋深较大,对地表竖向位移基本没有影响;地层损失率对地层沉降、管片上浮及管片内力的影响较大,随着地层损失率增大1%,地表沉降增大241.3%,管片上浮量降低38.2%,弯矩减少23.9%;注浆压力对管片上浮和管片内力有较大影响,注浆压力增大10%,管片上浮量增大32.1%,弯矩增大24.3%;千斤顶力主要对沿隧道轴向的管片轴力有一定影响,对管片上浮和管片弯矩影响很小。研究成果可为管片结构设计及海底盾构施工参数控制提供更加合理的参考建议。 相似文献
16.
我国西南岩溶山区地质环境复杂,地下开采活动频繁,大型崩滑灾害频发。为了了解上硬下软缓倾岩质边坡下覆矿层开采时坡体的沉降与地裂缝发育规律,以贵州普洒崩塌为例,通过相似模型试验,研究采动作用下,坡体的地表沉降、内部位移、层间压力变化规律、以及采动诱发的地裂缝发育情况。研究表明:在地下开采情况下,坡体地表沉降和内部位移随开采宽度增加呈线性增大;当开采宽度约为采高的16倍时,地表沉降突增,并伴随裂缝出现;测点越靠近地裂缝,沉降变化率越大,地裂缝发生位置与地表沉降变化率最大的测点大致出现在同一区域;掘进工作面推进时,采空区上方顶板岩层出现卸荷区域,压应力减小,而采动工作面煤层上方岩体出现层间挤压区域,压应力增加;采空区上方大于20倍采高范围以外,岩体层间压力受地下开采活动的扰动影响微弱。本研究为西南岩溶山区在地下采动作用下,对山体崩滑的早期识别与破坏机制分析具有一定的参考意义。 相似文献
17.
盾构隧道局部长期渗水对隧道变形及地表沉降的影响分析 总被引:3,自引:0,他引:3
研究表明,盾构隧道长期渗水会造成地表及隧道严重沉降。针对盾构隧道局部渗流难以模拟的现状,首先提出了一种既符合盾构隧道刚度要求又能实现局部接头渗水的计算方法;在稳定渗流状态对应的相同渗流量的前提下,对比分析了管片在不同接头渗水条件下隧道周围土体孔压分布、地表和隧道沉降以及隧道变形规律。分析结果表明,盾构隧道渗水接头的位置不同,孔压分布、地表和隧道沉降以及隧道的变形均有明显差异;接头位置越靠近隧道底部,渗水导致的孔压减小越显著,造成的地表及隧道沉降越显著。接头渗水不但会使隧道发生横向椭圆化变形,还会引起隧道左右两侧受力不平衡,从而造成隧道水平侧移。通过对比表明,采用接头渗水和传统的衬砌均质渗水得到的孔压分布、沉降及隧道变形规律均有显著不同;不考虑隧道局部渗水特点会对隧道结构长期性态的认识产生偏差。 相似文献
18.
砂土中隧洞开挖引起的地面沉降试验研究 总被引:15,自引:3,他引:12
利用离心模型试验研究隧洞开挖中支护压力P与地层位移S的关系以及地面沉降槽的形态。得到归一化P-S曲线和沉降槽计算参数。还分析了土类、密度和含水量对地层位移的影响。 相似文献
19.
Chenyang Zhao Arash Alimardani Lavasan Thomas Barciaga Tom Schanz 《国际地质力学数值与分析法杂志》2019,43(4):781-800
This study investigates the ground movements due to mechanized tunnel excavation by applying two-dimensional finite element analyses. To assess the contribution of the compressibility and plasticity of the soil on the ground movements, different constitutive models are employed to describe the soil behavior. The influence of volume loss around the tunnel on the surface volume loss is investigated, and a quadratic correlation between them is proposed. Consequently, the empirical Gaussian distribution curve, which is generally used to determine the tunneling induced settlement trough, is improved by applying the proposed quadratic correlation between surface volume loss and tunnel volume loss. Furthermore, the settlement trough width parameter has been derived by a linear function of tunnel volume loss as well. The proposed equations are validated via a case study of centrifuge tests from the literature. The results show that the proposed modification enhances the empirical solution by having better knowledge on the model parameters. Additionally, tunnel overburden and coefficient of lateral earth pressure at rest (K0) are taken into account to study their influence on the tunneling induced surface settlements. Finally, global sensitivity analysis is applied to evaluate the relative importance of corresponding model parameters in terms of their influence on the ground movements. 相似文献
20.
成都地铁卵石层中盾构施工开挖面稳定性研究 总被引:4,自引:0,他引:4
随着我国社会经济的发展,越来越多的城市开始规划和修建地铁,在此期间,部分城市在地铁建设中遇到了地质条件非常复杂的砂卵石土层,特别是正在建设中的成都地铁1、2号线,区间隧道几乎全部从卵石土层中穿越,根据设计,成都地铁1、2号线部分区间隧道采用加泥式土压平衡盾构法施工。利用土压平衡式盾构施工时,开挖面支护土压力控制是保证掘进顺利进行的关键,目前国内外在这方面的研究主要集中于砂土和黏性土,关于卵石土盾构隧道开挖面变形与破坏的研究很少。基于此,根据卵石土具有强烈离散特性的特点,利用颗粒离散元数值方法,对卵石土层土压平衡式盾构施工中开挖面支护应力不足引起开挖面的变形及破坏问题进行了分析研究,探讨了隧道开挖面变形及破坏问题。研究结果显示:(1)开挖面极限支护应力远小于土体原位静止土压力;(2)开挖面失稳后,开挖面前部的滑动块为一曲面体。这为卵石土地层中盾构开挖面控制压力的确定提供参考。 相似文献