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1.
高土石坝在施工期心墙会产生超静孔隙水压力,且难以有效消散,蓄水后心墙从非稳定渗流状态到稳定渗流状态,因此,渗流特性异常复杂。目前,有限元方法进行渗流计算不能考虑施工期引起的孔隙水压力,因而不能完全了解土石坝的渗流特性。长河坝为砾石土心墙堆石坝,最大坝高为240 m。利用离心模型试验技术,通过分析长河坝施工期和运行期心墙的孔隙水压力的产生和消散变化规律研究大坝心墙的渗流特性。试验结果表明,心墙孔隙水压力经历施工时的增长期、竣工后的消散期、非稳定渗流时的增长期和消散期、稳定渗流时的稳定期5个阶段。心墙高程不同、填筑含水率不同,各阶段的孔隙水压力和历时也不同。心墙位置越高或填筑含水率越大,施工期孔隙水压力系数越大,形成稳定渗流所需时间越短。心墙位置越高或填筑含水率越小,心墙位势越大,非稳定渗流期心墙位势大于稳定渗流期。研究成果对高心墙堆石坝设计和施工具有指导意义。 相似文献
2.
H. L. Martin 《国际地质力学数值与分析法杂志》1978,2(1):3-17
A three-dimensional finite element program is used to analyse an 80 m high rockfill dam. An analysis is made of the deformed shape of the dam and the internal stresses and strains due to reservoir filling. 相似文献
3.
高土石坝裂缝分析的变形倾度有限元法及其应用 总被引:1,自引:0,他引:1
土石坝张拉裂缝一般由坝体的不均匀沉降变形引起,是土石坝破坏的主要诱因和表现形式之一。将基于现场沉降监测资料的传统变形倾度法进行了扩展,通过在有限元计算程序中嵌入变形倾度计算模块,发展了基于有限元变形计算的变形倾度有限元法。该方法简洁实用,方便与常规有限元变形计算相耦合,可作为在工程设计阶段分析和估算土石坝是否会发生表面张拉裂缝的实用方法。应用所发展的变形倾度有限元法,以糯扎渡高心墙堆石坝工程为例,进行了坝体后期变形引起坝体表面发生张拉裂缝的敏感性计算分析,探讨了高土石坝变形倾度的分布规律以及与坝体后期变形的关系,发现对糯扎渡高心墙堆石坝,坝顶后期沉降最大值小于坝高0.39%,可作为防止发生坝顶横向张拉裂缝的控制工况。通过工程实例的计算,说明提出的方法可用于高土石坝的裂缝预测分析。 相似文献
4.
The short-term behaviour of pile groups subjected to lateral pressures by deformation of a clay layer under an adjacent surcharge load was studied using three dimensional finite element analysis. The main aim of the analysis was to investigate the pile-clay interaction behaviour. A load-path-dependent, non-linear constitutive model was used to describe the clay, which required knowledge of in situ stresses and recent strain history. Numerical results compared well with those from a centrifuge model test. The effects of the different in situ stresses and strains likely in prototypes and centrifuge model tests were also studied with particular interest in the load-transfer relationships and soil deformation behaviour around the piles. 相似文献
5.
A non-linear three-dimensional finite element procedur is developed and applied for the analysis of pile group foundations. The numerical procedure allows for elastic, non-linear elastic and elastic-plastic hardening behaviour of sand. In order to include the interaction effects involving relative slip and debonding, the thin-layer interface element is used. The predictions for displacements and loads obtained from the numerical procedure are compared with laboratory model test results of a pile group. Displacements, stresses and forces distribution in various components of the pile group are also examined. Furthermore, the effects of the non-linear soil response and relative motions at the interface are indentified and discussed. 相似文献
6.
The theory of consolidation is extended to partly saturated clay soils, and formulated for finite element analyses. This formulation couples the effects of both stress and flow. It takes account of variations of this permeability of the soil and compressibility of the pore fluid with changes in void ratio, and the non-linear stress–strain behaviour of soil. The Cam Clay model is revised to model the stress–strain behaviour of compacted soils. The compressibility of pore fluid is derived using Boyle's Law and Henry's Law, taking into account the effect of surface tension. An empirical equation is developed for permeability of pore fluid. An example of settlement of a footing on partly saturated soil is described and discussed. 相似文献
7.
The clay-core rockfill dam is a multibody contact system in which the hydromechanical response of the clay core plays a crucial role. This complex problem is highly challenging to model numerically. We present a numerical approach that considers the multibody contact, consolidation, and strong geometric and material nonlinearities for the modeling of clay-core rockfill dams. Within the framework of the dual mortar finite element method, the presented approach considers the contact bodies as independent porous media continuums. The nonlinear contact conditions are derived based on the effective contact traction on contact interfaces and pore pressure continuity. The weak forms are obtained by introducing Lagrange multipliers as additional unknowns, which are then condensed through an extended general transformation. The presented method is first validated with a patch test considering the contact between two porous media. Then, a three-dimensional analysis of the Rumei clay-core rockfill dam is performed. The main numerical analysis concerns are the two observation galleries planned for construction inside the clay core. The galleries consist of dozens of tunnel-like concrete blocks, giving rise to complex concrete-concrete and concrete-clay contacts. The discontinuous separation and sliding between concrete blocks are investigated. For the concrete-concrete contact, both hard and soft joint approaches are evaluated and compared. The pore pressure results of the concrete structures are also analyzed. 相似文献
8.
瀑布沟堆石坝防渗体自适应有限元分析 总被引:1,自引:0,他引:1
在深覆盖层地基上修建高土石坝,其防渗体系的可靠性是一项关键技术问题。针对瀑布沟水电站堆石坝的实际工程特点,应用自适应有限元方法,分析研究了大坝的稳定性和覆盖层中混凝土防渗墙与坝内黏土心墙接头部位的局部应力和变形情况,对比分析了不同接头形式的利弊,为设计部门推荐了合适的接头形式。 相似文献
9.
鲤鱼潭黏土心墙堆石坝在台湾“9•21”集集地震中有一定的变形损伤。为了研究大坝的地震破坏机制,分析了大坝的永久位移分布规律,同时采用有限元数据平滑方法,对大坝位移监测数据进行处理,得到了大坝的永久应变场。结果表明,大坝在强震作用下永久变形指向坝内,坝体体积整体收缩;由于反滤料孔隙水压力上升,有效应力降低,在上游坝体在反滤层附近出现拉应变;在两岸坝肩与基岩交界部位存在拉应变,易造成拉伸裂缝。 相似文献
10.
In this paper, a numerical solution for the electro-osmosis consolidation of clay in multi-dimensional domains at large strains is presented, with the coupling of the soil mechanical behaviour, pore water transport and electrical fields being considered. In particular, the Modified Cam Clay model is employed to describe the elasto-plastic behaviour of clay, and some empirical expressions are used to consider the nonlinear variation of the hydraulic and electrical conductivities of the soil mass during the consolidation processes. The implementation of the theoretical model in a finite element code allows for analysis of the evolution of the transient response of the clay subjected to electro-osmosis treatment. The proposed model is verified via comparison with data from a large strain electro-osmosis laboratory test, to demonstrate its accuracy and effectiveness. Various numerical examples are also investigated to study the deformation characteristics and time-dependent evolution of the excess pore pressure. Finally, a well-documented field application of electro-osmosis is simulated to provide further verification. The results show that the numerical solution is effective in predicting the nonlinear behaviour of clay during electro-osmosis consolidation. 相似文献
11.
The displacement formulation of the finite element method is well suited to the analysis of elasto-plasticity problems involving compressible material behaviour, but it is well known that numerical difficulties occur when the material is incompressible or nearly incompressible. The effect of these additional constraints depends on both element formulation and mesh topology. A two-dimensional plane strain finite element formulation suitable for the solution of problems involving large strains and displacements (but small rotations) based on the isoparametric approach is described. The kinematics of deformation are defined in terms of the Eulerian strain rates that are invariably used in small strain analysis; the formulation therefore retains some of the character of small strain theory but includes additional geometrically non-linear terms. The results of a series of plane strain finite element analyses of two cylindrical expansion problems are presented. These results confirm the previously observed trend that as Poisson's ratio approaches 0·5 then the quality of the calculated stress deteriorates. The study also indicates that the solution quality depends increasingly on mesh topology as perfect incompressibility is reached. 相似文献
12.
不同应力路径下超固结黏土试样变形局部化分析 总被引:2,自引:1,他引:1
基于改进伏斯列夫面超固结黏土三维本构模型,利用有限元软件ABAQUS材料子程序接口,采用回映应力更新算法,实现了该模型在有限元分析中的应用。通过该模型与比奥固结理论的耦合,对超固结比为8的超固结黏土在三轴压缩、三轴伸长及平面应变应力条件下的变形局部化问题,进行了水-土耦合弹塑性有限元分析。分析结果表明:剪切带带内、带外点经历不同应力路径;剪切带带外单元经历了体缩、剪胀及被吸水体缩过程,而剪切带带内单元一直保持剪胀趋势;剪切带的形成伴随着剪胀,剪切带内、外出现了负的孔压,且孔压的分布也具有局部化特性。关于剪切带带内、外的孔隙水压及体变变化趋势与剪切速率有关,而平面应变介于三轴压缩与三轴伸长之间,但平面应变较早出现剪切带。孔隙水的迁移速度影响剪切带带内单元的剪胀,进而影响剪切带的形成及发展;而围压和弱单元位置也对剪切带的形成也有影响。 相似文献
13.
结合实测资料和有限元方法分析建于深覆盖层地基上面板堆石坝的应力、变形特性。数值计算中采用邓肯-张E-B模型模拟覆盖层地基和坝体的应力、变形行为,同时采用无厚度接触面模拟面板和坝体以及防渗墙和地基之间的相互作用。整理和分析工程实测资料并与数值计算结果进行对比分析,重点分析坝体和防渗结构的力学行为以及面板堆石坝和地基之间的相互作用。比较分析表明,大坝最大沉降和压应力分别发生在坝体底部和覆盖层中,覆盖层对坝体及防渗结构的应力、变形特性具有显著影响,应力、变形实测值与数值计算结果吻合较好,说明数值计算结果的有效性。在此基础上,分析了覆盖层上面板堆石坝分期填筑和筑坝速度对坝体和防渗结构应力变形的影响。结果表明,分期填筑引起坝体较大不均匀沉降和复杂的应力状态,但一定程度上可以改善防渗墙的应力变形特性;较快的坝体填筑速度容易引起坝体较大的前期应力和后期沉降,不利坝体的施工和运行。 相似文献
14.
A finite element model is developed for modelling coupled fluid expulsion/deformation behaviour of dewatering sediments subjected to external loadings under isothermal conditions. The non-linear deformation behaviour of the sediment (soil) skeleton is based on the force equilibrium equation in which the constitutive relationship of stress and strain is implemented by the modified Cam-Clay model in soil plasticity. The fluid flow behaviour in the model is described by the generalized porous media flow equation. The model allows temporal and spatial variations of porosity and permeability. The fluid viscosity and density are assumed to be temperature-dependent. The model also allows the development of single and multiple faults, depending upon the material (sediment and fluid) properties, loading and boundary conditions. Procedures are implemented for (1) updating the material properties such as porosity, permeability, fluid density and viscosity and (2) the development of faults which allow the formation of high-permeability conduits for fluid flow. The solution algorithm for displacements of the sediments and the excess pore (fluid) pressure is based on a residual load technique to handle the non-linear (elastic-plastic) deformation behaviour of the sediment skeleton. The model can be applied to one- and two-dimensional problems. Examples of a plane strain saturated sediment layer subjected to stepwise horizontal tractions versus time are given. 相似文献
15.
This paper presents a novel, exact, semi-analytical solution for the quasi-static undrained expansion of a cylindrical cavity in soft soils with fabric anisotropy. This is the first theoretical solution of the undrained expansion of a cylindrical cavity under plane strain conditions for soft soils with anisotropic behaviour of plastic nature. The solution is rigorously developed in detail, introducing a new stress invariant to deal with the soil fabric. The semi-analytical solution requires numerical evaluation of a system of six first-order ordinary differential equations. The results agree with finite element analyses and show the influence of anisotropic plastic behaviour. The effective stresses at critical state are constant, and they may be analytically related to the undrained shear strength. The initial vertical cross-anisotropy caused by soil deposition changes towards a radial cross-anisotropy after cavity expansion. The analysis of the stress paths shows that proper modelling of anisotropic plastic behaviour involves modelling not only the initial fabric anisotropy but also its evolution with plastic straining. 相似文献
16.
S. Özkuzukiran M. Y. Özkan M. Özyazicioğlu G. S. Yildiz 《Geotechnical and Geological Engineering》2006,24(6):1665-1678
Settlement behaviour of a concrete faced rock-fill dam (CFRD), Kurtun dam, located in the East Black Sea Region, Turkey, is
investigated. This is the first instrumented CRDF in the Country. Two dimensional plane strain finite element analyses were
carried out to assess the total stresses and displacements in the dam both for construction and reservoir filling stages by
using computer program PLAXIS. Predicted stresses and settlements are compared with those observed and overall the results
are found to be in good agreement for the construction stage. Due to the relatively steep abutment slopes, cross-valley arching
has a significant effect on stresses and displacements in the dam body. For the reservoir filling condition, it is seen that,
predicted settlements are larger than the observed values, which indicates that during reservoir filling the rock-fill embankment
responds more stiffly than it does during the construction stage. The hardening soil model is used to represent the non-linear,
inelastic and stress dependent behaviour of rock-fill material. The model parameters are selected from the appropriate values
in the literature investigating comparable cases. 相似文献
17.
高聚物胶凝堆石料静力特性试验研究 总被引:1,自引:0,他引:1
采取加固措施可提高土体抗剪强度、减小变形等。采用聚氨酯高聚物胶凝堆石料加固土石坝以改良堆石料强度、变形特性。开展了聚氨酯胶凝堆石料三轴剪切试验研究,结果表明:聚氨酯胶凝堆石料偏应力-轴向应变曲线具有明显的非线性,抗剪强度提高;采用抛物线拟合偏应力-轴向应变曲线,可反映其应变软化和应变硬化,并得到初始弹性模量随聚氨酯含量的提高而提高;聚氨酯泡沫填充堆石颗粒间孔隙并将堆石颗粒黏结在一起,减少颗粒破碎、颗粒重排列,使堆石料剪缩特征减弱,当聚氨酯含量高时表现出剪胀;聚氨酯增加了堆石料准黏聚力,对内摩擦角无明显影响。通过有限元方法对堆石坝变形和稳定性进行分析,结果表明,聚氨酯加固堆石坝可减少边坡浅层滑动,增大滑弧深度,提高坝坡稳定安全系数。 相似文献
18.
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
19.
A large strain analysis of undrained expansion of a spherical/cylindrical cavity in a soil modelled as non‐linear elastic modified Cam clay material is presented. The stress–strain response of the soil is assumed to obey non‐linear elasticity until yielding. A power‐law characteristic or a hyperbolic stress–strain curve is used to describe the gradual reduction of soil stiffness with shear strain. It is assumed that, after yielding, the elasto‐plastic behaviour of the soil can be described by the modified Cam clay model. Based on a closed‐form stress–strain response in undrained condition, a numerical solution is obtained with the aid of simple numerical integration technique. The results show that the stresses and the pore pressure in the soil around an expanded cavity are significantly affected by the non‐linear elasticity, especially if the soil is overconsolidated. The difference between large strain and small strain solutions in the elastic zone is not significant. The stresses and the pore pressure at the cavity wall can be expressed as an approximate closed‐form solution. Copyright © 2001 John Wiley & Sons, Ltd. 相似文献