共查询到20条相似文献,搜索用时 31 毫秒
1.
应用PLAXIS 2D/3D有限元分析软件,对某黄土洞室进行了二维、三维分步掘进、三维一次掘进等工况的弹塑性有限元分析,研究分析了不同工况下洞室围岩位移的变化规律,并对掌子面的空间效应进行了分析。分析结果表明,二维与三维分步计算的最终位移基本一致,可以用二维的计算结果来估算洞室开挖的最终位移。三维分步掘进的分析表明,不同埋深的洞室其位移比的变化规律基本一致,当L/B<1时(L为掘进深度,B为洞室跨度),位移比呈线性增加;当L/B>1时,位移比呈非线性增加;当L/B>3时,其最大位移接近最终位移。掌子面的空间效应分析表明,在掌子面处的位移约为最终位移的1/3,距掌子面0.5倍跨度处的位移约为最终位移的2/3,距掌子面2.5倍跨度处的位移基本达到了最终位移。 相似文献
2.
D. Peila 《Geotechnical and Geological Engineering》1994,12(3):145-168
Summary The problem of tunnel face stability is studied and the analysis of the stabilizing effect achieved by pre-reinforcement of the core which has to be excavated is dealt with. In Italy, the insertion of longitudinal fibreglass pipes in the ground has proved to be efficient in solving face instability problems. A thorough review of other applications of the technology has been carried out.The results of a series of parametric, three-dimensional, elasto-plastic finite element analyses are presented. The tunnel excavation with or without support and face reinforcement is simulated in the models. The stresses, plastic zones and displacements in the ground, pipes and lining have been studied. The support effect of the pipes is demonstrated by the results. Face reinforcement significantly reduces the displacements of the face. The stresses in the material at the face are also charged from tension to compression, thus enhancing face stability. 相似文献
3.
Improved Longitudinal Displacement Profiles for Convergence Confinement Analysis of Deep Tunnels 总被引:6,自引:1,他引:5
Summary Convergence-confinement analysis for tunneling is a standard approach for preliminary analysis of anticipated wall deformation
and support design in squeezing ground. Whether this analysis is performed using analytical (closed form) solutions or with
plane strain numerical models, a longitudinal displacement profile (LDP) is required to relate tunnel wall deformations at
successive stages in the analysis to the actual physical location along the tunnel axis. This paper presents a new and robust
formulation for the LDP calculation that takes into account the significant influence of ultimate (maximum) plastic radius.
Even after all parameters are appropriately normalized, the LDP function varies with the size of the ultimate plastic zone.
Larger yield zones take a relatively longer normalized distance to develop, requiring an appropriately calculated LDP. Failure
to use the appropriate LDP can result in significant errors in the specification of appropriate installation distance (from
the face) for tunnel support systems. Such errors are likely to result in failure of the temporary support. The equations
presented here are readily incorporated into analytical solutions and a graphical template is provided for use with numerical
modeling.
Correspondence: M. S. Diederichs, Associate Professor, Queen’s University, Ontario, Canada 相似文献
4.
The construction of quasirectangular tunnels at shallow depths is becoming increasingly common in urban areas to efficiently utilize underground space and reduce the need for backfilling. To clarify the mechanical mechanism of the stresses and displacements around the tunnels, this study proposes analytical solutions that precisely account for quasirectangular tunnel shapes, the ground surface, the tunnel depth, and the ground's elastic/viscoelastic properties. The Schwarz alternating method combined with complex variable theory is employed to derive the elastic solution, and convergent and highly accurate solutions are obtained by superposing the solutions in the alternating iterations. Based on the solution and the extended corresponding principle for the viscoelastic problem, the time-dependent analytical solutions for the displacement are obtained for the ground assuming any viscoelastic model. The analytical solutions agree well with the finite element method (FEM) numerical results for models that are completely consistent, and qualitatively agree with field data. Furthermore, based on the stress solution combined with the Mohr-Coulomb failure criterion, the predicted initial plastic zone and propagation directions around the tunnels are qualitatively consistent with those determined by the limit analysis. A parametric study is performed to investigate the influences of the rectangular/quasirectangular tunnel shape, burial depth, and supporting pressure on the ground stresses and displacements. 相似文献
5.
Surface settlements of soil due to tunneling are caused by stress relief and subsidence due to movement of support by excavation. There are significant discrepancies between empirical solutions to predict surface settlement trough because of different interpretations and database collection by different authors. In this paper, the shape of settlement trough caused by tunneling in cohesive ground is investigated by different approaches, namely analytical solutions, empirical solutions, and numerical solutions by the finite element method. The width of settlement trough was obtained by the finite element method through establishing the change in the slope of the computed settlement profile. The finite element elastic-plastic analysis gives better predictions than the linear elastic model with satisfactory estimate for the displacement magnitude and slightly overestimated width of the surface settlement trough. The finite element method overpredicted the settlement trough width i compared with the results of Peck for soft and stiff clay, but there is an excellent agreement with Rankin’s estimation. The results show that there is a good agreement between the complex variable analysis for Z/D = 1.5, while using Z/D = 2 and 3, the curve diverges in the region faraway from the center of the tunnel. 相似文献
6.
复杂条件下隧道支护结构稳定性分析 总被引:1,自引:0,他引:1
以方斗山隧道为研究对象,建立三维有限元数值分析模型,模拟分析了隧道支护结构的稳定性。以距离隧道洞口10 m处断面支护结构为例,分析了该断面初次支护和二次衬砌的水平应力、竖向应力、竖向位移、锚杆轴力及支护结构破坏域等随掌子面推进的变化规律,并对该断面支护结构特征点的稳定性进行追踪研究。研究结果表明,当掌子面与断面间距离小于30 m左右时,随着掌子面的推进,支护结构应力及位移等均有一定程度的增长,其后支护结构应力及位移基本收敛,且收敛值均较小,表明支护结构是稳定的。对隧道初次支护应力及锚杆轴力的现场监测结果及数值模拟结果进行对比分析,结果表明,数值模拟与现场监测结果基本一致。 相似文献
7.
8.
Double shield TBMs are amongst the most technically sophisticated excavation machines in use by tunneling industry. However, using the shielded machine limits access to the walls for observation of ground conditions and presence of shield makes the machine susceptible to entrapment or seizure in weak rocks under high stresses which results in high convergence. To realistically evaluate the possibility of machine seizure in such grounds, the interaction between the rock mass and shields, lining and backfilling need to be understood. This study explains the application of numerical analysis for 3D simulation of mechanized tunneling by using a double shield TBM. For this purpose, a comprehensive numerical simulation is developed to systematically evaluate the potential of excessive ground convergence. Simulation results at five reference points on the tunnel circumference along the tunnel have been examined. The results are including longitudinal displacement profile (LDP) as well as contact force profiles (LFP) on both front and rear shields, frictional forces and required thrust to move the machine, stress history of ground, and estimated loading of the segments. The results also proved that numerical analyses can successfully be used for prediction of loads on the shield during excavation to assess risks of machine entrapment. 相似文献
9.
10.
响应位移法能够反映软土隧道在地震荷载作用下的动力反应特性,是一种简便实用的隧道抗震设计简化分析方法。以方形截面隧道为例,采用地层-结构整体动力有限元方法,验证了响应位移法的准确性与合理性;为了简化响应位移法的计算过程,基于平面应变假定,采用弹性理论的复变函数方法推导了土弹簧刚度的解析表达式,并与有限元解进行了对比分析。将土弹簧刚度的解析表达式应用到响应位移法的计算中,同时采用地层剪应力及自由场地震反应位移的简化计算模式,将简化后的响应位移法和整体动力有限元法进行了对比分析,验证了简化方法的可行性。 相似文献
11.
铁山隧道和大垭口隧道的平面弹塑性有限元分析 总被引:6,自引:5,他引:1
对巴彭公路铁山隧道和开万公路大垭口隧道的两个典型剖面的稳定性进行了平面弹塑性有限元计算,分析了围岩中的应力、变形、塑性区以及初期支护和二次衬砌结构的承载能力,得出了相应的认识:(1)在特定的埋深、岩体类别、支护结构及荷载释放比例的条件下,洞室周围有较强的应力集中现象,一定部位及范围内的围岩进入了塑性状态;(2)喷层、二次衬砌及锚杆均在弹性范围内工作,并且有较大的安全储备。 相似文献
12.
基于支护参数优化的强震区软岩隧道变形控制技术研究 总被引:1,自引:0,他引:1
为探明强震区千枚岩地层中长大山岭隧道支护参数变化与衬砌结构变形的相互作用关系,基于新奥法施工理念,结合强震区在建杜家山绢云千枚岩隧道现场试验段的实际施工过程,根据采取的三台阶施工方法,以试验段设置的5种支护方案为依托,对各种情形下隧道变形及主体结构内力进行现场动态跟踪测试,探讨隧道施工过程中随各部开挖不同支护方案下拱顶沉降、周边收敛、地表沉降及结构内力的变化关系,分析初步认定支护强度及刚度大的F5方案更适用于震区千枚岩隧道施工。对5种方案的施工过程进行三维有限元弹塑性模拟,通过对开挖后隧道变形、支护受力与现场监测值的对比分析,对施工过程中隧道结构的安全性和围岩稳定性做出评价。现场试验和数值模拟结果综合分析表明,仅有两种(F4、F5)方案适用于隧道开挖,而F5方案的隧道变形及结构受力较其余4种方案更为合理,该方案的成功运用也验证了这一方案的合理、有效性。在该基础上总结提出的软岩隧道支护参数技术要领及方法可供类似工程参考。 相似文献
13.
针对岩质或黄土浅埋隧道,考虑岩土体黏弹性流变特性和支护效应,给出斜坡下进行隧道施工时的全域时效解答。根据一般黏弹性问题求解方法,采用复变函数方法、Laplace变换、黏弹性叠加关系,用随时间和空间变化支护力体现管片支护效应,导出适用于任意黏弹性模型岩体、任意时刻施加支护的应力与位移。解答与相同模型有限元结果一致,根据解答分析了广义Kelvin黏弹性模型岩体中浅埋隧道开挖时侧压力系数、斜坡倾角、埋深对稳定地表沉陷大小和范围、洞周时效位移、应力的影响,给出可按深埋问题处理时的埋深范围。解答可用于岩质和黄土隧道初步设计中,并为隧道与地下结构相互作用分析两阶段法提供自由位移场。 相似文献
14.
For slope condition of ground surface, the asymmetrical deformation about the vertical center line and the horizontal center line of the tunnel cross section can be formed. A unified displacement function expressed by the Fourier series is presented to express the asymmetrical deformation of the tunnel cross section. Five basic deformation modes corresponding to the expansion order 2 are a complete deformation mode to reflect deformation behaviors of the tunnel cross section under slope boundary. Such this complete displacement mode is implemented into the complex variable solution for analytically predicting tunneling-induced ground deformation under slope boundary. All of these analytical solutions are verified by good agreements of the comparison between the analytical solutions and finite element method results. A parameter study is carried out to investigate the influence of deformation modes of the tunnel cross section, geometrical conditions of the tunnel and the slope angle, and “Buoyancy effect” on the displacement field. Finally, the proposed method is consistent with measured data of the Hejie tunnel in China qualitatively. The presented solution can provide a simplified indication for evaluating the ground deformation under slope condition of ground surface. 相似文献
15.
城市地下轻轨隧道与上部建筑物相互作用及稳定性实例分析 总被引:1,自引:0,他引:1
某轻轨隧洞相临重庆市某高层建筑(水晶城堡)岩体地基,采用工程地质定性分析、附近同类工程建设的经验类比、三维弹塑性有限元数值分析等多种技术手段, 对拟建建筑和地下轻轨隧道的相互影响及其稳定性进行综合分析与评价,全面分析了修建高层建筑对轻轨隧洞围岩位移、应力及对其安全系数产生的附加影响。分析表明, 修建上部建筑物对地下洞室的开挖位移和应力有微量扰动,洞顶最大附加位移量为1.15 mm,塑性区变化不大,由此可认为在正常施工和工程地质情况无异常的情况下,该工程的修建不会对地下洞室的安全和围岩稳定性构成影响,可为同类地下工程建设提供一定参考。 相似文献
16.
17.
地震动下考虑各向异性土体-盾构隧道数值模拟 总被引:4,自引:0,他引:4
针对层状土体-盾构隧道地震反应分析,引入了横观各向同性弹塑性模型,建立了横观各向同性介质的双渐近-多向透射边界条件。针对盾构隧道抗震设计的特点,基于横观各向同性弹塑性模型,研制了考虑层状土体各向异性和施工开挖效应,适合于地下结构动力计算的弹塑性动力有限元程序。在程序中对不同的材料采用了不同的本构关系和单元形式,并采用了关联流动法则和多种屈服准则,可同时进行横观各向同性土体与地下结构的平面应力、平面应变和轴对称问题的静动力有限元分析。最后,利用所研制的程序对上海地铁二号线石门一路站附近区间隧道在不同超越概率地震波输入下的地震反应进行了计算。结果表明,在层状土体-地铁盾构隧道的抗震分析中考虑土体各向异性的影响是必要的,所提出的计算模型是合理易行的。 相似文献
18.
This paper presents a three‐dimensional energy‐based solution for the time‐dependent response of a deeply embedded and unsupported semi‐infinite tunnel of circular cross‐section. The tunnel is taken to be excavated quasi‐instantaneously from an infinite rock body that initially exhibits an isotropic stress state and that is made up of a homogeneous, isotropic and viscoelastic material. The viscoelastic behaviour is modelled by means of Burger's model, and the rock is taken to behave volumetrically linear elastic and to exhibit exclusively deviatoric creep. This viscoelastic problem is transformed into the Laplace domain, where it represents a quasi‐elastic problem. The displacement fields in the new solution are taken to be the products of independent functions that vary in the radial and longitudinal directions. The differential equations governing the displacements of the system and appropriate boundary conditions are obtained using the principle of minimum potential energy. The solutions for these governing equations in the Laplace domain are then obtained analytically and numerically using a one‐dimensional finite difference technique. The results are then transformed back into the time domain using an efficient numerical scheme. The accuracy of the new solution is comparable with that of a finite element analysis but requires much less computation effort. Copyright © 2011 John Wiley & Sons, Ltd. 相似文献
19.
Antonio Bobet 《Rock Mechanics and Rock Engineering》2011,44(2):149-167
Closed-form solutions for displacements and stresses of both the liner and the rock are presented for a deep circular tunnel
excavated in transversely anisotropic rock above or below the water table subjected to static or seismic loading. The solutions
are obtained with the assumption of elastic response of rock and liner, tied contact between rock and liner, impermeable liner,
plane strain conditions along the tunnel axis and simultaneous excavation, and liner installation. The liner of a tunnel placed
below the water table must support, in addition to the rock stresses, the full water pressure, while a tunnel located above
the water table must support only the rock pressures. The solutions presented for static loading show, however, that displacements
and stresses of the liner and rock are the same when the tunnel is placed above or below the water table as long as the total
far-field stresses are the same. With rapid loading, e.g. seismic loading, excess pore pressures may be generated in saturated
rock, which induce a different response than that of a tunnel excavated in dry rock. The analyses indicate that stresses and
displacements are more uniform when excess pore pressures are produced, which seems to indicate that pore pressure generation
tends to reduce non-uniform response in anisotropic rock. 相似文献
20.
The interactions between perpendicularly crossing tunnels in the Sydney region are investigated using a full three-dimensional (3D) finite element analysis coupled with elasto-plastic material models. Special attention is paid to the effect of subsequent tunnelling on the support system, i.e. the shotcrete lining and rock bolts, of the existing tunnel. The results of the analysis show that in a region such as Sydney, with relatively high horizontal stresses, installation of the new tunnel causes the shotcrete lining of the existing tunnel to be in tension in the side facing towards the tunnel opening and in compression at the crown and invert. The pre-stressed rock bolts are usually tensioned more in the sections closest to the tunnel opening. For this particular study, if a new tunnel is driven perpendicularly beneath an existing tunnel, significant increases are induced in the bending moments in the shotcrete lining at the lateral sides of the existing tunnel and in the axial forces at its crown and invert. The increase in side bending moments causes further tensile cracking but the crown and invert stresses remain within the thresholds for both compressive failure and tensile cracking for shotcrete lining of typical concrete quality. Moreover, the driving of the new tunnel causes the tensile forces in the existing side rock bolts to increase and those in the existing crown rock bolts to decrease. In contrast, if the new tunnel is driven perpendicularly above the existing tunnel, compressive failure of the existing shotcrete lining is induced at the crown of the deeper tunnel for concrete of typical capacity and a significant tensile force increase of the existing rock bolts around the crown. It is concluded that in order to ensure the stability of the existing tunnel, local thickening is needed at the sides of the existing shotcrete lining if the shallow tunnel is installed first and local thickening is needed at the crown if the deep tunnel is installed first. 相似文献