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1.
搅拌桩加固挤土效应及在地铁隧道保护中的应用 总被引:1,自引:0,他引:1
在减小地基变形进行的深层搅拌桩加固时,加固本身的挤土效应对隧道变形产生了影响。为此,模拟了搅拌桩(DCM)侧向挤土效应的4种荷载模式,结合实测资料并采用数值试验验证了侧向挤土荷载模式的合理性。进一步应用该模式,通过有限元模拟了搅拌桩的加固挤土效应,分析讨论了不同加固顺序对地面变形,隧道变形以及长期蠕变变形的影响,结论表明,搅拌桩加固对地面环境影响是不可忽略,隧道周围搅拌桩施工顺序对隧道变形影响较大,搅拌桩加固后长期蠕变效应相对加固过程的变形很小。 相似文献
2.
We present an explicit analytical approach for calculating the distribution of stress around a circular cased borehole in a general anisotropic formation. This approach is developed based on a pure elastic cased borehole model, which can include multiple cemented concentric casing strings that are surrounded by a homogeneous anisotropic medium. The wall of the innermost casing is under the compression of borehole internal fluid pressure, and the formation can be subjected to arbitrary far‐field stresses. Every casing–cement boundary is assumed to be welded, so as the cement–formation boundary. The derived analytical solution can be applied to an arbitrary wellbore trajectory in an arbitrary anisotropic formation and is also applicable to degenerate isotropic formations. Accuracy and robustness of the analytical solution is validated through comparing its results with those calculated from the classical Kirsch solution for an isotropic example that has identical elastic properties for all materials and from a finite element method for an anisotropic cased borehole example. 相似文献
3.
This work presents analytical solutions to compute the vertical stresses for a cross‐anisotropic half‐space due to various loading types by batter piles. The loading types are an embedded point load for an end‐bearing pile, uniform skin friction, and linear variation of skin friction for a friction pile. The cross‐anisotropic planes are parallel to the horizontal ground surface. The proposed solutions can be obtained by utilizing Wang and Liao's solutions for a horizontal and vertical point load acting in the interior of a cross‐anisotropic medium. The derived cross‐anisotropic solutions using a limiting approach are in perfect agreement with the isotropic solutions of Ramiah and Chickanagappa with the consideration of pile inclination. Additionally, the present solutions are identical to the cross‐anisotropic solutions by Wang for the batter angle equals to 0. The influential factors in yielded solutions include the type and degree of geomaterial anisotropy, pile inclination, and distinct loading types. An example is illustrated to clarify the effect of aforementioned factors on the vertical stresses. The parametric results reveal that the stresses considering the geomaterial anisotropy and pile batter differ from those of previous isotropic and cross‐anisotropic solutions. Hence, it is imperative to take the pile inclination into account when piles are required to transmit both the axial and lateral loads in the cross‐anisotropic media. Copyright © 2008 John Wiley & Sons, Ltd. 相似文献
4.
Phien-wej, N. and Cording, E.J., 1991. Sheared shale response to deep TBM excavation. Eng. Geol., 30: 371–391.
Ravelling and squeezing of sheared shale of Stillwater Tunnel caused severe problems in tunneling with a tunnel boring machine (TBM) that led to termination of the contract. The tunnel was finally holed through with two TBM's specially designed for squeezing ground. Although the shale mass in all geological conditions exhibited time-dependent response, significant squeezing was confined to sheared shale with large amounts of clay gouge infill, wherein creep of the clay gouge was the prime mechanism controlling the ground response. However, when the tunnel face was advanced at a slow rate, the observed ground squeezing in the early period was largely induced by the effect of stress change from face advance, not the creep. Ground ravelling was very significant in sheared shale due to the high degree of fissuring and fracturing of this thinly bedded shale. Failure of the first TBM resulted mainly from the incompatibility of the shield design with the sheared shale. The shield was too long and stiff and had variable diameters. Extensive observation and instrumentation programs of the project provided valuable information on rapid mechanized tunneling in heavy ground. 相似文献
5.
S. M. Fatemi Aghda K. Ganjalipour M. Esmaeil Zadeh 《Geotechnical and Geological Engineering》2016,34(5):1487-1512
According to the International Society of Rock Mechanics, squeezing is a time dependent large deformation occurring during tunnel construction around the tunnel associated with creep caused by exceeding a limiting shear stress (Barla in ISRM News J 2:44–49, 1995). This research is conducted using a case study on the Nowsoud Tunnel, Iran. Being 14 km in length and 4.5 m in diameter, the tunnel is located in the western part of Iran near the Iraq border. Nowsoud tunnel, which was excavated using a double shield TBM, exhibited severe squeezing (with 8919 m) in its critical zone which resulted in excavation termination. In this research, the best approach for predicting squeezing among the recommended methods for reducing the damages caused by squeezing on TBM was determined. In this regard, approaches commonly used to predict squeezing are empirical, semi-empirical, and theoretical–analytical methods. Besides, these methods, numerical modeling is used to estimate convergence generated along the tunnel pathways, which is ultimately used to categorize squeezing. This paper compares squeezing prediction methods in 68 section of Nowsoud Tunnel. These 68 sections indicate that the empirical methods propose a general estimation/overview of squeezing. Among the semi-analytical approaches, the one proposed by Hoek and Marinos (Rock engineering in difficult rock conditions—soft rocks and karst, Taylor & Francis Group, London, pp 49–60, 2000) are compatible with the occurrence of squeezing in the critical zone. However, the degree of predicted squeezing is less than the real degree of squeezing in this zone. Based on the result of Aydan approach, 75 % of the tunnel sections are under squeezing condition. Theoretical–analytical approaches underestimate the possibility of squeezing in the critical zone. Barla?s approach (1995) demonstrated the possibility of squeezing in the critical zone with low intensity. The numerical computations in this paper were performed using Plaxis (version 8.5), a two-dimensional numerical program based on the finite element method. Plaxis results, classified by Hoek and Marinos (2000) method, show that 8800 m of the tunnel length is under the non-squeezing condition. According to all prediction methods, the squeezing zones depend on faulted zones, argillaceous limestone and shale formations such as J1Kh, J4Kh, J5Kh, and Kgr. These formations were identified with a high quantity of shale and argillaceous limestone. Bedding of these geological formations is thin and their geotechnical properties are weaker than those of limestone formations. On the other hand, non-squeezing zones depend on limestone formations such as J2Kh, J3Kh, J6Kh, Kabg, and Kbg. Moreover, all approaches predicted squeezing potential for the critical zone where TBM is jammed. 相似文献
6.
对石英云母片岩进行三轴压缩蠕变试验,研究丹巴水电站石英云母片岩的三轴蠕变特性及其各向异性特性。按轴向荷载与层理面关系加工成平行组和垂直组2组试件,开展分级加载方式进行不同围压条件下的蠕变试验。试验研究表明,石英云母片岩具有蠕变特性,包括瞬时变形、衰减蠕变、稳定蠕变和加速蠕变阶段;采用带Kachanov蠕变损伤律的蠕变模型来描述石英云母片岩的蠕变特性,并进行蠕变参数辨识,拟合结果显示此模型能很好地描述石英云母片岩的蠕变特性;根据试验结果获得2组试件的长期屈服强度、破坏形态、瞬时变形参数和稳定蠕变速率,分析表明石英云母片岩的蠕变力学特性具有明显的各向异性特性。层理面与轴向荷载垂直的试件较层理面与轴向荷载平行的试件的强度、弹性剪切模量、体积模量和黏性系数相对较大,表现出较高的抗变形和抗破坏能力;平行组以剪切破坏为主,垂直组破坏时出现侧向鼓胀现象,显示出延性破坏的特点;2组石英云母片岩试件的瞬时应变量和稳定蠕变速率都随着应力水平的提高而增大。 相似文献
7.
Summary This paper is intended to describe the SHELVIP (Stress Hardening ELastic VIscous Plastic) model, a new viscoplastic constitutive
law which has been developed to incorporate the most important features of behaviour observed in tunnels excavated in severe
to very severe squeezing conditions. This model couples the elastoplastic and time-dependent behaviour by using a plastic
yield surface, as frequently adopted in tunnel design analysis, and the definition of a state of overstress referred to a
viscoplastic yield surface. The model is formulated in all its detailed aspects. The related analytical closed-form solution
for representing triaxial creep deformations is developed. Also developed is an incremental numerical solution for describing
the triaxial stress–strain behaviour under constant strain rate conditions. The model is shown to fit very satisfactorily
the results of creep tests on clay shales and relaxation tests on coal specimens, as recently performed for design analysis
of tunnels in squeezing conditions.
Correspondence: D. Debernardi, Department of Structural and Geotechnical Engineering, Politecnico di Torino, Torino, Italy 相似文献
8.
9.
This paper describes a constitutive approach to model the behavior of rate‐dependent anisotropic structured clay. Rate‐sensitivity is modeled using overstress viscoplasticity. Clay structure is treated as a viscous phenomenon whereby the viscosity of the undisturbed structured clay is initially very high and the viscosity degrades or decreases with plastic straining until the intrinsic or residual viscosity is reached. A microstructure tensor approach is used to make the structured viscosity anisotropic; whereas, the intrinsic viscosity is assumed to be isotropic. The behavior of the constitutive model is compared with the measured response of two clays (Gloucester and St. Vallier clay) from Eastern Canada during triaxial compression tests on specimens trimmed at different orientations to the vertical. The comparisons show that the constitutive framework is able to describe the anisotropic and rate‐sensitive response of both clays. The response of the model is also examined for the more general case of anisotropic consolidated triaxial compression and extension. Copyright © 2010 John Wiley & Sons, Ltd. 相似文献
10.
隧道围岩大变形是目前公路、铁路隧道建设中遇到的重要科学问题。工程实践中,隧道围岩大变形主要是由于围岩遭受剪切破坏而产生了流变而导致的,部分隧道的围岩大变形是由于围岩成分中的亲水矿物遇水发生水化学反应而发生体积膨胀产生的,故隧道围岩大变形可以分为应力型、材料性和结构型3类。通过全面分析前人的研究成果,可以将隧道围岩相对变形3%作为划分隧道内是否发生大变形的定量评价指标。而对于应力型围岩大变形,Hoek提出的隧道围岩径向变形和掌子面变形预测公式较好地预测了施工现场的围岩变形量,其现实意义较为明显,但需要针对不同的工程条件调整原地应力的估算公式或者考虑围岩二次应力场的赋存状态。对于材料型和结构型围岩大变形的变形量预测,目前仍然是一块研究的空白区,需要进一步开展相关工作。 相似文献
11.
弱各向异性介质地震波传播特征分析 总被引:1,自引:1,他引:0
随着油气田勘探精度要求越来越高,各向异性已成为不得不考虑的重要因素,因此对地震波在各向异性介质中传播特征的研究具有一定的价值。利用Thomsen提出的弱各向异性理论,通过理论模型数值计算,分析了Thomsen各向异性参数对弱各向异性VTI介质中三种体波的影响。分析结果表明:①参数ε、δ分别影响qP波大角度、中小角度传播的各向异性;②参数(ε-δ)影响qSV波中等角度传播时的各向异性;③参数γ影响qSH波大角度传播的各向异性,且群速度的各向异性要比相速度的各向异性更明显,并会出现复杂的交会区。通过这些研究分析,进一步认识了弱各向异性介质相速度及群速度随各向异性参数变化的规律。 相似文献
12.
Wei Wu 《国际地质力学数值与分析法杂志》1998,22(11):921-940
The paper presents a constitutive model for the three-dimensional deformation–strength behaviour of inherently anisotropic sand. Based on non-linear tensorial functions, the model is developed without recourse to the concepts in plasticity theory such as yield surface and plastic potential. Benefited from the fact that no decomposition of strain into elastic and plastic parts is assumed, a unified treatment of anisotropic behaviour of deformation and strength is achieved. Anisotropy is characterized by a vector normal to the bedding plane. The extension of the constitutive model is furnished by incorporating the vector under consideration of the principle of objectivity and the condition of material symmetry. Distinct features of the model are its elegant formulation and its simple structure involving few material parameters. Model performance and comparison with experiments show that the model is capable of capturing the salient behaviour of anisotropic sand. © 1998 John Wiley & Sons, Ltd. 相似文献
13.
Discrete element method modeling of inherently anisotropic rocks under uniaxial compression loading 
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下载免费PDF全文 A new numerical approach is proposed in this study to model the mechanical behaviors of inherently anisotropic rocks in which the rock matrix is represented as bonded particle model, and the intrinsic anisotropy is imposed by replacing any parallel bonds dipping within a certain angle range with smooth‐joint contacts. A series of numerical models with β = 0°, 15°, 30°, 45°, 60°, 75°, and 90° are constructed and tested (β is defined as the angle between the normal of weak layers and the maximum principal stress direction). The effect of smooth‐joint parameters on the uniaxial compression strength and Young's modulus is investigated systematically. The simulation results reveal that the normal strength of smooth‐joint mainly affects the behaviors at high anisotropy angles (β > 45°), while the shear strength plays an important role at medium anisotropy angles (30°–75°). The normal stiffness controls the mechanical behaviors at low anisotropy angles. The angle range of parallel bonds being replaced plays an important role on defining the degree of anisotropy. Step‐by‐step procedures for the calibration of micro parameters are recommended. The numerical model is calibrated to reproduce the behaviors of different anisotropic rocks. Detailed analyses are conducted to investigate the brittle failure process by looking at stress‐strain behaviors, increment of micro cracks, initiation and propagation of fractures. Most of these responses agree well with previous experimental findings and can provide new insights into the micro mechanisms related to the anisotropic deformation and failure behaviors. The numerical approach is then applied to simulate the stress‐induced borehole breakouts in anisotropic rock formations at reduced scale. The effect of rock anisotropy and stress anisotropy can be captured. Copyright © 2015 John Wiley & Sons, Ltd. 相似文献
14.
通过将Perzyna过应力理论与临界状态理论相结合,并引入Wheeler旋转硬化法则,提出一个能描述土体初始各向异性及应力诱发各向异性的三维弹黏塑性本构模型。模型考虑流变发生的下限,在三维应力空间,模型存在形状相似的静屈服面及动态加载面。采用缩放形式的幂函数。本构模型数值算法采用回映算法,借助ABAQUS软件UMAT子程序接口实现。并通过对三轴不排水蠕变试验的模拟,确定合适的积分步长。此后,分别对三轴不排水蠕变试验及常应变率三轴不排水剪切试验进行了模拟。模拟中通过设置不同参数值,可将模型退化为各向同性模型,并对这两种模拟结果进行了比较。模拟结果表明:(1) 对于三轴不排水蠕变,在低剪应力水平下,各向同性模型和各向异性模型模拟的结果相差不大,而在高剪应力水平下,各向异性模型模拟结果更接近试验结果;(2) 对于常应变率加载试验的模拟,模型合理反映了土体不排水强度随着加载速率的增大而增大现象。 相似文献
15.
水平向渗透系数各向异性会导致抽水产生的水位降深等值线呈现椭圆形,进而产生椭圆形地面沉降漏斗,这种椭圆形地面沉降漏斗的现象在现实中广泛存在。渗透系数均质各向同性的圆形地面沉降漏斗中,地面某点沉降值s与该点至漏斗中心的距离r之间符合s- 线性关系,渗透性水平向各向异性导致的椭圆形地面沉降漏斗也具有s- 线性关系规律。应用地下水动力学相关理论,经过理论推导,得出了椭圆形地面沉降漏斗各径向线上半对数线性关系式 中常数项 、 与径向线方位角θ之间的函数关系式,即 、 与 或 的平方呈正比,该函数关系式得到中国、美国和印度共6个区域性地面沉降漏斗实例的有力验证。对公式验证回归所得的12个相关系数中,1个为87.19%,其余11个都在90%以上。以上渗透性水平向各向异性导致的区域性椭圆形地面沉降漏斗的性质,公式简单实用,可方便应用于椭圆形地面沉降漏斗中非监测点的沉降值推测,利于全面了解椭圆形沉降漏斗信息,具有广泛应用价值。 相似文献
16.
Manuel Rocha Medal Recipient Simulating the Time-dependent Behaviour of Excavations in Hard Rock 总被引:3,自引:1,他引:3
D. F. Malan 《Rock Mechanics and Rock Engineering》2002,35(4):225-254
Summary
Although hard rock is not usually associated with large creep deformation, data collected from the tunnels and stopes of the
deep South African gold mines illustrates significant time-dependent behaviour. Apart from application in mining, a better
understanding of the time-dependent behaviour of crystalline rock is required to analyse the long term stability of nuclear
waste repositories and to design better support for deep civil engineering tunnels in these rock types. To illustrate the
subtle problems associated with using viscoelastic theory to simulate the time-dependent behaviour of hard rock, a viscoelastic
convergence solution for the incremental enlargement of a tabular excavation is discussed. Data on the time-dependent deformation
of a tunnel developed in hard rock further illustrates the limitations of the theory, as it is unable to simulate the fracture
zone around these excavations. To simulate the rheology of the fracture zone, a continuum viscoplastic approach was developed
and implemented in a finite difference code. This proved more successful in modelling the time-dependent closure of stopes
and squeezing conditions in hard rock tunnels. A continuum approach, however, has limitations in areas where the squeezing
behaviour is dominated by the time-dependent behaviour of prominent discontinuities such as bedding planes. To overcome this
problem, a viscoplastic displacement discontinuity technique was developed. This, combined with a tessellation approach, leads
to more realistic modelling of the time-dependent behaviour of the fracture zone around excavations.
Received January 15, 2002; accepted June 3, 2002 Published online September 2, 2002 相似文献
17.
本描述了单轴压缩蠕变实验结果。试样包括c轴取向为随机分布和非随机分布的冰、人造冰和取自南极洛多姆冰帽的冰芯冰,各向同性冰芯冰和人造的最小应变率存在差别,未获得合理的解释。方位组构与应力状态相容时,各赂异性冰的最小应变率高于各向同性冰的最小应变率,随着第三应谱阶段的发展,冰芯冰和人造冰的第三应变率趋近相同的恒定值,实验后冰芯冰和人造冰c轴方位组构类型相同,晶粒尺寸也接近。 相似文献
18.
各向异性初始应力状态下圆柱孔扩张理论弹塑性分析 总被引:4,自引:1,他引:3
传统的圆柱孔扩张理论假定初始应力为各向同性的。在城市地下管道的铺设、隧道工程等的水平掘进施工过程中,圆柱孔受到的初始竖向应力不等于初始水平应力,并不满足各向同性初始应力条件。考虑土体的各向异性初始应力条件,假定土体满足Mohr-Coulomb屈服准则,推导了各向异性初始应力状态下的圆柱孔扩张问题弹塑性解答。算例计算结果表明:土性参数一定时,在相同内压力作用下,各向异性初始应力状态下的圆柱孔扩张形成的塑性区半径大于各向同性初始应力状态下的圆柱孔扩张的塑性区半径,但前者的极限扩孔压力小于后者。 相似文献
19.
Giancarlo Gioda 《国际地质力学数值与分析法杂志》1982,6(1):21-46
An analysis is presented of the non-linear creep effects around a deep circular tunnel driven in ‘squeezing’ ground. The time-dependent behaviour of the geotechnical medium is described by means of a simple viscoplastic rheological model capable of approximating primary, secondary and tertiary creep behaviours. It is shown that tertiary creep can be allowed for by providing a suitable law governing the variation of some material parameters (such as viscosity) with stresses and strains. The basic operations of the ‘evolutive’ procedure adopted for time integration are outlined. Along each time integration step, quadratic variations of the stress and strain fields and linear variations of the material parameters are assumed. The results of various finite element analyses are presented concerning both lined and unlined cases. For the lined cases, the influence of the liner stiffness and of the time elapsed between the end of excavation and the liner installation is considered. 相似文献
20.
Ultimate bearing capacity of a foundation reinforced by columns or cross trenches under inclined loads: a homogenization approach 下载免费PDF全文
下载免费PDF全文 This paper addresses the geotechnical engineering problem of evaluating the ultimate bearing capacity of a strip foundation resting upon a reinforced soil, by means of the yield design homogenization approach. The analysis is notably focused on the determination of the macroscopic strength criterion of such reinforced soils, where both constituents are purely cohesive, which can be conveniently expressed through the notion of anisotropic cohesion. A comprehensive comparison is made between the classical configuration of reinforcing columns and the more original one of orthogonal reinforcing trenches. Among the most outstanding results of the analysis is the conclusion that the cross trench configuration is notably more efficient in terms of load bearing capacity than the reinforcement by columns, notably when significantly inclined loading is concerned. Copyright © 2014 John Wiley & Sons, Ltd. 相似文献