共查询到19条相似文献,搜索用时 218 毫秒
1.
离心模型试验与数值模拟相结合研究采空边坡渐进破坏特性 总被引:1,自引:0,他引:1
以贵州六盘水地区煤层开采为工程背景,采用离心模型试验与数值模拟相结合的方法研究了采空条件下边坡的渐进破坏过程及破坏模式。基于离心模型试验得到了开采过程中边坡的位移场,并采用FLAC~(3D)对离心模型试验过程进行了数值模拟,数值与试验结果得出的边坡位移时程曲线吻合程度较高,塑性区分布与试验点对分析得到的滑裂面破坏过程与路径基本一致。通过对比、融合离心模型试验观测与数值模拟结果,表明贯通坡脚与采空区的滑裂面由下向上形成,且总体发生剪切错动破坏,贯通坡肩与采空区的滑裂面由上至下发生复杂的破坏过程,初始阶段滑裂面发生张拉破坏,中间阶段同时发生张拉与剪切破坏,末尾阶段发生剧烈的剪切滑移破坏。 相似文献
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《岩土力学》2020,(4)
以贵州六盘水地区煤层开采为工程背景,采用离心模型试验与数值模拟相结合的方法研究了采空条件下边坡的渐进破坏过程及破坏模式。基于离心模型试验得到了开采过程中边坡的位移场,并采用FLAC~(3D)对离心模型试验过程进行了数值模拟,数值与试验结果得出的边坡位移时程曲线吻合程度较高,塑性区分布与试验点对分析得到的滑裂面破坏过程与路径基本一致。通过对比、融合离心模型试验观测与数值模拟结果,表明贯通坡脚与采空区的滑裂面由下向上形成,且总体发生剪切错动破坏,贯通坡肩与采空区的滑裂面由上至下发生复杂的破坏过程,初始阶段滑裂面发生张拉破坏,中间阶段同时发生张拉与剪切破坏,末尾阶段发生剧烈的剪切滑移破坏。 相似文献
3.
《岩土力学》2021,(4)
以贵州六盘水地区煤层开采为工程背景,采用离心模型试验与数值模拟相结合的方法研究了采空条件下边坡的渐进破坏过程及破坏模式。基于离心模型试验得到了开采过程中边坡的位移场,并采用FLAC~(3D)对离心模型试验过程进行了数值模拟,数值与试验结果得出的边坡位移时程曲线吻合程度较高,塑性区分布与试验点对分析得到的滑裂面破坏过程与路径基本一致。通过对比、融合离心模型试验观测与数值模拟结果,表明贯通坡脚与采空区的滑裂面由下向上形成,且总体发生剪切错动破坏,贯通坡肩与采空区的滑裂面由上至下发生复杂的破坏过程,初始阶段滑裂面发生张拉破坏,中间阶段同时发生张拉与剪切破坏,末尾阶段发生剧烈的剪切滑移破坏。 相似文献
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L型抗滑桩在传统等截面抗滑桩的基础上加入横段,有效提高桩的稳定性和加固边坡效果。本文采用离心模型试验与数值模拟相结合的方法研究了L型抗滑桩加固土坡的变形特征与桩土相互作用。基于离心模型试验得到了L型抗滑桩加固土坡的位移场,并采用有限元软件对离心模型试验过程进行了数值模拟,数值与试验结果得出的土坡荷载位移曲线吻合程度较高,水平位移分布趋势基本一致。模拟结果表明,L型抗滑桩的加固效果明显优于传统等截面抗滑桩,土坡位移减小约25%,桩转角减小约70%。通过对比、融合离心模型试验观测与数值模拟结果,分析了L型抗滑桩对土坡的加固效果及桩-土相互作用。横段上下侧的土压力分布相差很大,差距最大时上侧土压力仅为下侧土压力的20%左右。L型抗滑桩横段与土的摩擦力分布存在极小值,竖直段抗滑桩可以改变土坡位移场,使得内侧位移分布存在极大值。坡体受力变形分析结果表明,抗滑桩导致土坡出现土拱效应,L型抗滑桩的横段会进一步增强土拱效应,形成应力重分布,使横段所受土压力增大,提高抗滑桩的稳定性。 相似文献
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降雨条件下土坡变形机制的离心模型试验研究 总被引:3,自引:0,他引:3
自行研制了离心场降雨模拟设备,进行了降雨条件下边坡的离心模型试验。试验模型在离心机中加载到50g,然后开始降雨。采用非接触位移测量系统测量了试验过程中边坡的位移场变化,通过T5张力计测量边坡中典型点的吸力变化。试验结果表明,边坡的位移随降雨量的增大逐渐发展,发生明显变形的区域也逐渐变大,主要集中在边坡表面。边坡某处应变迅速变化的时刻与土体含水率迅速增大的时刻相一致。边坡某点的应变随降雨量的增加不断增大,并存在2个拐点,形成湿润锋和稳定锋2个锋面,并把边坡分成3个区域,通过锋面的变化反映降雨条件下边坡的变形过程。 相似文献
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离心场中土体图像采集与位移测量系统的研制与应用 总被引:2,自引:1,他引:1
以存储前移为主要思路,开发了离心场中高质量图像高速采集与位移非接触测量系统。该系统由图像采集、数据存储、通讯控制、分析处理和辅助制样5个子系统组成,能够克服高速旋转的离心场的干扰,在离心模型试验过程中高速采集高质量图像。该系统能够对多点同时进行测量,从而得到土体表面任意时刻、任意区域的位移场,并具有对土体无干扰、测量精度高、前期准备工作量小、自动化程度高等优点。使用该系统对土坡破坏离心模型试验中的土坡变形过程进行了测量,结果表明,土坡的破坏过程可分为均匀变形、应变局部化和破坏后变形3个阶段,加载过程中首先在坡顶和坡脚产生应变局部化。 相似文献
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岩土工程数值计算中粗粒土常采用邓肯-张本构模型,为了验证该模型在轴向加载、卸载、侧向加载等复杂应力路径条件下的适用性,进行了粗粒土的三轴试验获取其力学特性及本构模型参数;根据相似性原理制作了堆石坝的离心模型试样,并采用与三轴试验同样级配与粒径的粗粒土进行复杂应力路径的堆石坝离心模型试验,试验中通过改变离心加速度模拟加载、卸载,利用上游蓄水模拟坝体的侧向加载;采用ABAQUS对离心模型试验进行三维数值模拟,并研究了模型箱侧壁摩擦系数与土体的初始应力对数值结果的影响。通过比较离心模型试验与数值模拟成果,表明土体的初始弹性模量对计算结果影响较大,初始应力应选择自重作用下的应力场;邓肯-张本构模型能较好地描述堆石坝的加载应力路径,而模拟卸载应力路径有一定的差异,需要改进邓肯-张本构模型中卸载模量的确定方法。 相似文献
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防波堤土工织物加筋地基离心模型试验及数值模拟 总被引:7,自引:2,他引:5
以黄骅港北防波堤工程为依托,对土工织物加筋软粘土地基及斜坡式防波堤体系的固结过程进行了离心模型试验和有限元数值模拟,通过分析地基土体固结过程中防波堤-加筋垫层-基体系的位移场和应力场的发展及织物拉应力分布和发展,验证离心试验及数值模拟方法的合理性,并得出以下几点主要结论:(1)土工织物加筋垫层的作用机理为其抗拉性限制自身横向变形,通过与附近土体的摩擦作用限制其侧向变形;(2)加筋减小防波堤-垫层-地基体系的高应力水平区,避免堤身与地基高应力水平区域的连通,增强系统稳定性;(3)在离心试验采用的分层地基的条件下,加筋减小了浅层软基和堤身的侧向位移量,对系统总位移有抑制作用;(4)试验中织物替代材料的极限拉伸强度发挥程度较低,其与砂垫层间摩擦强度的发挥水平约为23.8%。 相似文献
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考虑位移影响的主动土压力近似计算方法 总被引:4,自引:2,他引:2
分析了位移对主动土压力的影响规律,发现主动土压力的大小取决于松弛应力与位移的关系。已有的研究表明:可以用双曲线函数模拟松弛应力与位移的关系,据此建立了考虑位移影响的主动土压力的近似计算方法。对两例离心试验数据拟合分析后,总结了公式中参数的近似表达式。模型试验和数值分析验证了该方法的正确性与合理性。在此基础上,推导了考虑位移影响的朗肯主动土压力理论,为主动土压力的计算提供了一种新的方法。 相似文献
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可液化场地微型桩的地震响应分析是确保工程安全和优化抗震设计的前提。应用动态离心机试验和三维有效应力数值分析方法,研究了微型单桩桩台的侧向变形和加速度、不同埋深桩身弯矩、可液化场地的加速度及超孔隙水压力等响应特征。首先开展了相对密实度为57%饱和土层、输入波是频率为1 Hz和峰值加速度为1.516 m/s2正弦波的微型桩40 g动态地震响应离心机试验,进而应用基于多重剪切机构塑性模型和液化前缘状态面概念的三维有效应力分析方法,反演了试验结果,并进行了对比分析,结果表明,数值模拟与离心机试验结果吻合,液化场地特性控制着建于其中微型桩的地震响应特征,微型桩桩台的水平变形和残余变形可达78、30 mm,桩身最大弯矩和最大残余弯矩呈现向桩身底部迁移特点,同时表明,基于动态土工离心机试验和数值分析相结合的研究方法,分析可液化场地微型桩地震响应特性是有效可行的,研究结论为可液化场地微型桩的抗震设计提供了可靠的依据和参考。 相似文献
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In this paper, a numerical procedure based on the finite element method is outlined to investigate pile behaviour in sloping ground, which involves two main steps. First a free-field ground response analysis is carried out using an effective stress based stress path model to obtain the ground displacements, and the degraded soil stiffness and strength over the depth of the soil deposit. Next a dynamic analysis is carried out for the pile. The interaction coefficients and ultimate lateral pressure of soil at the pile–soil interface are calculated using degraded soil stiffness and strength due to build-up of pore pressures, and the soil in the far field is represented by the displacements calculated from the free-field ground response analysis. Pore pressure generation and liquefaction strength of the soil predicted by the stress path model used in the free-field ground response analysis are compared with a series of simple shear tests performed on loose sand with and without an initial static shear stress simulating sloping and level ground conditions, respectively. Also the numerical procedure utilised for the analysis of pile behaviour has been verified using centrifuge data, where soil liquefaction has been observed in laterally spreading sloping ground. It is demonstrated that the new method gives good estimate of pile behaviour, despite its relative simplicity. 相似文献
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通过大量的人工冻结黏土蠕变试验研究,获得在高偏应力下人工冻结黏土具有显著的蠕变特性:当应力水平较低时,人工冻土发生黏弹性蠕变变性;当应力水平较高时,人工冻土发生黏塑性蠕变变性。因此,以西原模型为基础,增加一个黏弹性元件项和用抛物线屈服函数代替塑性屈服项,构建了高应力下抛物线型黏弹塑性蠕变本构模型。改进的西原模型可以较好描述人工冻土剪切蠕变特性。基于小生境技术的遗传算法和人工冻土黏弹塑性模型有限元理论,在FEPG(有限元程序生成器)自动生成平台上研发了位移反分析程序。利用现场实测数据对深井冻结井筒开挖过程进行了位移反分析,获得了与试验相一致的冻土本构力学模型参数,数值分析结果与实测数据之间的误差在6%以内,反演结果验证了模型的可行性。冻结井筒开挖过程的位移反分析获得的人工冻土本构模型参数,能反映冻结壁施工过程和有效冻结范围内冻土本构参数平均值,因而具有广泛的代表性,对冻结壁应力场、位移场和稳定性预测具有重要工程意义。 相似文献
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干砂强夯动力特性的细观颗粒流分析 总被引:5,自引:0,他引:5
通过引进和开发二维颗粒流程序,基于相似理论建立了可以模拟砂土地基强夯加固的细观颗粒流模型,结合小比尺室内细观模型试验,从颗粒细观力学角度入手对干砂在强夯冲击加固过程中的动力反应特性进行了数值模拟。结果表明,数值模拟结果与试验结果有较好的一致性,利用颗粒流模型可以很好地模拟干砂在冲击荷载作用下的锤底动接触应力、颗粒间动接触应力和颗粒位移场分布情况,并可以实时跟踪颗粒的变位及接触应力变化,实现从细观角度揭示干砂强夯动力响应特性,研究工作为今后砂土强夯加固宏细观机制研究提供了一条新的思路。 相似文献
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Numerical simulation of the seismic response of tunnels in sand with an elastoplastic model 总被引:1,自引:0,他引:1
Rui Carrilho Gomes 《Acta Geotechnica》2014,9(4):613-629
The number of larger tunnels in seismic regions has grown significantly over the last decades. The behaviour of tunnels under seismic actions may be assessed using simplified or more complex approaches. Plane–strain centrifuge tests with dynamic loading on a model tunnel are used as experimental benchmark on the seismic behaviour of tunnels, with the ultimate aim of calibrating numerical and analytical design methods. Two models with dry uniform fine sand were prepared at two different densities, in which an aluminium-alloy tube was installed. This paper describes the numerical simulation of these tests with an elastoplastic model. The tunnel response recorded in the centrifuge tests is compared with the numerical prediction, showing the evolution of accelerations and internal forces along the tunnel lining during the model earthquakes. In general, the numerical simulation diverges from the recorded at the centrifuge tests. The numerical simulation largely amplifies the motion at the fundamental frequency of the soil deposit, while this effect is not significant in the centrifuge tests. It is shown that the peak increments in lining forces during dynamic loading measured in the centrifuge test disagree with the values from the numerical simulation and from the Wang’s elastic solution. The divergence observed between simulation and centrifuge tests may result mainly from the real initial stiffness of the sand in the centrifuge tests which are lower than those measured in laboratory tests and to the insufficient knowledge of all relevant stress paths to be imposed to soil for the calibration of model parameters. 相似文献
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《Geomechanics and Geoengineering》2013,8(4):275-289
Failure of retaining walls during earthquakes has occurred many times in the past. Although significant progress has been made in analysing the seismic response of rigid gravity type retaining walls, considerable difficulties still exist in the seismic-resistant design of the flexible cantilever type of retaining walls because of the complex nature of the dynamic soil–structure interaction. In this paper the seismic response of cantilever retaining walls with dry backfill is simulated using centrifuge modelling and numerical modelling. It is found that bending moments on the wall increased significantly during an earthquake. After the end of base shaking, the residual moment on the wall was significantly higher than the moment under static loading. The numerical simulation is able to model quite accurately the main characteristics of acceleration, bending moment, and displacement recorded in the centrifuge test. 相似文献
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分岔隧道模型试验与数值模拟超载安全度研究 总被引:2,自引:1,他引:1
超载试验能得到隧道的超载安全度,通过大型地质力学模型对分岔隧道进行了超载试验,模拟了分岔隧道在不同侧压系数下围岩的变形、应力分布和破坏情况。同时,应用三维数值分析软件对模拟区域进行了模拟。模型试验和数值模拟结果分析表明,随着侧压系数K的增加,分岔隧道的侧向位移增加,拱顶位移由向下变为向上;当侧压系数为K=3.5时,应力达到极限;当侧压系数K≥4.0时,位移突变,最终最大位移达到100 mm;塑性区骤增,隧道拱顶围岩开始开裂,且有块体掉落。分岔隧道的拱顶和两帮是最易破坏的区域,隧道超载安全度为3.5。 相似文献
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The installation of displacement piles in sand leads to severe changes in the stress state, density and soil properties around the pile tip and shaft, and therefore has a significant influence on the pile bearing capacity. Most current numerical methods predicting pile capacity do not take installation effects into account, as large deformations can lead to mesh distortion and non-converging solutions. In this study, the material point method (MPM) is applied to simulate the pile installation process and subsequent static pile loading tests. MPM is an extension of the finite element method (FEM), which is capable of modelling large deformations and soil-structure interactions. This study utilizes the moving mesh algorithm where a redefined computational mesh is applied in the convective phase. This allows a fine mesh to be maintained around the pile tip during the installation process and improves the accuracy of the numerical scheme, especially for contact formulation. For the analyses a hypoplastic constitutive model for sand is used, which takes into account density and stress dependent behaviour. The model performs well in situations with significant stress level changes because it accounts for very high stresses at the pile tip. Numerical results agree with centrifuge experiments at a gravitational level of 40 g. This analysis confirms the importance of pile installation effects in numerical simulations, as well as the proposed numerical approach’s ability to simulate installation and static load tests of jacked displacement piles. 相似文献