共查询到19条相似文献,搜索用时 156 毫秒
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地基液化导致沉箱码头破坏及地基加固方法的非线性数值分析 总被引:2,自引:0,他引:2
地震作用引发的地基液化,往往导致沉箱基础的破坏。本文基于Biot两相饱和多孔介质动力耦合理论,采用FE-FD耦合数值分析方法,对液化海床沉箱基础的地震反应进行非线性有效应力分析。在数值分析过程中,建立了以土骨架位移和超静孔隙水压力表达的us-pw动力固结方程和循环弹塑性本构模型,该方法能够很好地模拟地震作用下沉箱码头的动力特性及液化破坏的影响。通过数值模拟计算,分析了采用碎石桩进行置换砂区域的防液化加固方法,并就碎石桩处理区域的选择提出了建议。 相似文献
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饱水土层中骨架变形等因素对波传播的影响 总被引:4,自引:0,他引:4
本文在假设土骨架可变形的前提下,结合土的弹性、弹塑性和非线性本构关系的固相、液相的动力学方程,建立了针对饱和土体的一组可同时求出固相和液相的变形和应力变化的方程级。利用差分法对饱水土层在水平、竖向速度波、应力波以及地震波输入时进行了数值求解,简要分析和讨论了土骨架变形的作用、渗透系数、孔隙率、本构关系模型以及边界条件等各种因素的影响,发现了一些新的规律和趋势。 相似文献
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倾斜地层地震液化和滑移的有限元分析 总被引:1,自引:0,他引:1
应用饱和多孔介质动力学分析倾斜地层的土壤动力线性反应、液化和液化滑移问题,地下水位上的地层简化为单相介质层,饱和夹砂层看作是两相介质,水是可压缩的,采用双曲线非线性本构关系,考虑了砂土的剪胀性、刚度退化、滞回特性和土水相对运动等因素。基于土力学模型,建立了适用于分析非自由场地液化的动力方程组,基于是否考虑发生渗流问题,同时建立了两种离散形式:一种是以土骨架位移和水位移为未知量的矩阵方程,另一种是以土骨架位移、水位移和孔隙水压力为未知量的矩阵方程,初步分析了适用于多孔介质波动模拟的离散模型的人工边界问题,形成的方法将有助于问题的解决。 相似文献
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基于对非饱和多孔介质的研究成果,考虑孔隙中的液相和气相的相互影响,研究非饱和土地基中剪切S波的传播特性。通过非饱和土中固相、液相和气相的质量平衡方程、动量平衡方程和非饱和土有效应力原理,建立问题的弹性波动方程,经过理论推导给出非饱和土中剪切S波的弥散特征方程。通过数值算例分析剪切S波的波速和衰减系数随饱和度、频率和固有渗透系数等因素的变化规律。结果表明,剪切S波的波速几乎不受饱和度的影响,但其随着频率的增大而减小,随着固有渗透系数的增大先不变后增大;剪切S波的衰减系数随着饱和度和频率的增加均增大,而随着固有渗透系数的增大先不变后增大最后减小。 相似文献
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为研究长沙地区典型砂卵石土动力参数计算模型,基于大型动三轴试验,研究了围压、固结应力比及振动频率对砂卵石土动应力—动应变关系的影响,结合动参数模型及试验数据拟合出砂卵石土动弹性模量及阻尼比的经验公式,研究结果表明:围压对砂卵石土动本构关系影响显著;固结应力比大于1.0时,初始剪应力存在对砂卵石土的动强度增加不利;振动频率试验数据表现出良好的归一性,对砂卵石土动本构关系影响小;砂卵石土动力参数经验公式具有良好的可靠性。 相似文献
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本文在全面考虑上部结构、基础及下部土体实际情况和受力特性的基础上,开发了一种平面框剪土-结构相互作用的简化分析模型。在这个模型中,利用矩阵位移法的概念,同时考虑框架和剪力墙(筒体)的协同工作原理,将上部结构简化成平面的框架-剪力墙(筒体)结构,这一模型可以很好地模拟常用高层建筑体系的弯曲特性和弯剪特性。地基土采用一块在计算平面内高度为H,宽度为B,而在出平面方向厚度为t的土体作为分析模型,并对MSC.Marc进行了二次开发,将多层土E-B本构关系模型作为子程序嵌入其中,使用E-B本构关系模型来考虑它的非线性特性,利用粘-弹性人工边界作为地基土的边界条件。用接触迭代算法考虑了桩、箱-土之间的相互作用。最后,采用本文的方法对某高层框剪建筑进行了分析,并与不考虑土-结构相互作用的地震反应分析结果进行了对比。通过算例,本文初步探讨了在土-结构相互作用模型中,考虑和不考虑桩-土间相互作用对结构地震反应的影响,并得到了一些结论,证明了本文方法的适用性。 相似文献
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土颗粒是构成饱和地基的重要基础,因此无论用何种方法分析饱和地基时,均不能忽视土颗粒的物理性质。用传统方法计算时均假设土是均质、各向同性的,不考虑实际土颗粒的粒径和形状,与实际情况不符。本文采用了不同形核点数的不同不规则度的Voronoi网格划分模拟了实际土颗粒的结构,建立有限元模型并进行数值分析。计算结果表明,在不同时刻沿深度的孔压数值、有效应力分布和固结度等方面,采用该Voronoi网格划分的有限元模拟结果和太沙基常规模型的理论解进行对比,计算结果趋于一致,说明Voronoi图在对土体划分时是可行的,并且该模型在进行饱和土体一维固结的相关参数计算时具有很好的精度。 相似文献
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Changes in groundwater elevation may cause a change in the net normal stress and matric potential within the soil mass, which results in volume changes of unsaturated soil. This research investigated the relationship between the drawdown of groundwater and the characteristics of volumetric compressibility of unsaturated soil. Sand column experiments were designed and conducted to measure the volume changes of coarse and fine sands under different types of drainage conditions at fast and slow drainage rates. The finite element program FEMWATER was calibrated and used to simulate the distributions of stress, tension and moisture content within the sands. Finally, based on the changes of net normal stress and matric potential and the observed volume change of the sands, a least‐square method was applied to determine the volumetric consolidation parameters of the unsaturated soils. Copyright © 2004 John Wiley & Sons, Ltd. 相似文献
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J.C. Van Dam J.M.H. Hendrickx H.C. Van Ommen M.H. Bannink M.Th. Van Genuchten L.W. Dekker 《Journal of Hydrology》1990,120(1-4):359-379
Unstable water flow in water-repellent unsaturated soils can significantly affect the processes of infiltration and soil water redistribution. A field experiment was carried out to study the effect of water-repellency on water and bromide movement in a coarse-textured soil in the southwestern part of The Netherlands. The field data were analyzed using a relatively simple numerical model based on the standard Richards' equation for unsaturated water flow and the Fickian-based convection-dispersion equation for solute transport. Water-repellency was accounted for by multiplying the water content and the unsaturated hydraulic conductivity of the soil with F, a factor equal to the volumetric fraction of soil occupied by preferential flow paths resulting from the unstable flow process. The good comparison of simulated and measured bromide concentrations suggests that the model provides a viable method for simulating unstable water flow in water-repellent soils. 相似文献
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Accurate prediction of the liquefaction of saturated soils is based on strong coupling between the pore fluid phase and soil skeleton. A practical numerical method for large strain dynamic analysis of saturated soils is presented. The u–p formulation is used for the governing equations that describe the coupled problem in terms of soil skeleton displacement and excess pore pressure. A mixed finite element and finite difference scheme related to large strain analysis of saturated soils based on the updated Lagrangian method is given. The equilibrium equation of fluid-saturated soils is spatially discretized by the finite element method, whereas terms associated with excess pore pressure in the continuity equation are spatially discretized by the finite difference method. An effective cyclic elasto-plastic constitutive model is adopted to simulate the non-linear behavior of saturated soils under dynamic loading. Several numerical examples that include a saturated soil column and caisson-type quay wall are presented to verify the accuracy of the method and its usefulness and applicability to solutions of large strain liquefaction analysis of saturated soils in practical problems. 相似文献
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对某软土重塑样分别进行等向固结和K0固结条件下的三轴试验,研究了不同固结条件、不同围压下软土的强度和应力应变特性,并对试验结果进行了分析和对比。结果表明:低围压下,等向固结三轴压缩试验和K0固结三轴压缩试验土样破坏时的主应力差差别不大,随着围压增大,K0固结条件下试验土体的主应力差要明显大于等向固结条件下的试验土体;与等向固结相比,K0固结条件下的土体粘聚力c值减小,而内摩擦角增大;土体呈现剪缩特性。运用等向固结三轴压缩试验确定的邓肯模型参数模拟K0固结条件下土体的试验曲线,吻合较好,初步验证了邓肯模型参数对K0固结土体的适用性。 相似文献
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Impact of fractal characteristics on evaporation and infiltration in unsaturated heterogeneous soils
Jianting Zhu 《水文科学杂志》2020,65(11):1872-1878
ABSTRACT In this study, an approach is developed to investigate the impact of fractal characteristics of unsaturated soil between the water table and land surface on the steady-state evaporation and infiltration across a heterogeneous landscape. The soil domain is conceptualized as a collection of stream tubes of soils and the particle diameters in various stream tubes follow a fractal distribution. The saturated hydraulic conductivity of each stream tube is related to the representative particle diameter in the tube. The effective specific discharge is then integrated from the specific discharge for each stream tube and the fractal distribution. The effective evaporation and infiltration in unsaturated soils increase with the fractal dimension. The ratio of minimum over maximum diameters does not significantly affect the specific discharge in the fractal soil. The specific discharge in unsaturated fractal soils calculated by using the simple average particle diameter mostly over-predicts the actual effective specific discharge. 相似文献
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Do‐Hun Lee 《水文研究》2007,21(23):3155-3161
The conceptual recession model based on the storage–discharge relationship was proposed to account for the unsaturated–saturated water storage interaction. The recession model was formulated by combining the constitutive storage–discharge relationship with the integral balance equation for unsaturated and saturated water storage. The functional form of the constitutive storage–discharge relationship was determined from the spatial integration of the Richards equation. The performance of the recession model was tested by comparing with the solution of the Richards equation for different simulation geometric shapes and soil types. The conceptual recession model incorporating the unsaturated–saturated water storage interaction was in good agreement with the recession response of the Richards equation. However, the recession model that neglected the unsaturated–saturated water storage interaction was comparable to the Richards equation only for soils with the weak interaction between unsaturated water storage and saturated water storage. This result suggests the important role of the unsaturated–saturated water storage interaction in the formulation of the recession process when the derivative of the functional relationship between the unsaturated water storage and saturated water storage becomes significant. Copyright © 2007 John Wiley & Sons, Ltd. 相似文献
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A fully coupled thermal–hydraulic–mechanical–chemical (THMC) model was proposed to describe the migration of volatile organic contaminations (VOCs) in unsaturated landfill liners. The vertical soil stress, capillary pressure, air pressure, temperature increase, and solute concentration were selected as the primary variables. Finite deformations were described using Lagrangian coordinates. Non-isothermal moisture transport was found to be dependent on both the temperature gradient and the concentration of the VOCs. The VOCs were assumed to exist and be transported in three phases in the soil: solid, liquid, and gas. An illustrative example of an unsaturated landfill with a compacted clay liner was presented. For the case considered, the transport of gas phase VOCs was found to dominate the migration progress. Moreover, the temperature gradient can accelerate the breakthrough of VOCs in an unsaturated liner, while the mechanical consolidation slowed down the motion of the VOCs. 相似文献