共查询到18条相似文献,搜索用时 671 毫秒
1.
《岩土力学》2021,(2)
土体在非常小应变(小于10~(-6))时表现为线弹性。以往大量试验研究表明土体的弹性特性主要受到土体有效围压、孔隙比、颗粒级配和试样制备方法等影响。本文通过离散元方法模拟Duffy和Mindlin中的物理实验,建立球形颗粒规则排列的三维模型,继而进行小变形条件下的数值加载试验来确定弹性特性,并从细观层面揭示决定土体弹性特性的内在因素。模拟结果表明:粒状土的弹性模量取决于土体的颗粒接触配位数、法向接触力的大小和分布,跟宏观土体孔隙比、有效围压作用相对应。弹性模量应力指数n高于Hertz-Mindlin接触法则对应的1/3,主要是由于应力增加过程中配位数的增加和接触力趋于更均匀导致。同时,泊松比也随着配位数的增加而减小,并非保持不变,跟试验结果趋势一致。 相似文献
2.
《岩土力学》2020,(2)
土体在非常小应变(小于10~(-6))时表现为线弹性。以往大量试验研究表明土体的弹性特性主要受到土体有效围压、孔隙比、颗粒级配和试样制备方法等影响。本文通过离散元方法模拟Duffy和Mindlin中的物理实验,建立球形颗粒规则排列的三维模型,继而进行小变形条件下的数值加载试验来确定弹性特性,并从细观层面揭示决定土体弹性特性的内在因素。模拟结果表明:粒状土的弹性模量取决于土体的颗粒接触配位数、法向接触力的大小和分布,跟宏观土体孔隙比、有效围压作用相对应。弹性模量应力指数n高于Hertz-Mindlin接触法则对应的1/3,主要是由于应力增加过程中配位数的增加和接触力趋于更均匀导致。同时,泊松比也随着配位数的增加而减小,并非保持不变,跟试验结果趋势一致。 相似文献
3.
循环荷载下砂土液化特性颗粒流数值模拟 总被引:7,自引:2,他引:5
利用PFC2D常体积循环双轴试验条件,对砂土在不排水循环荷载作用下的液化特性进行了颗粒流数值模拟,数值模拟按等应力幅加荷方式进行。颗粒流数值模拟的优点在于得到试样液化宏观力学表现的同时,通过不同循环加荷时刻试样内细观组构参量(包括配位数、接触法向分布、粒间法向接触力、粒间切向接触力)的演化规律,分析砂土液化过程中细观组构变化与宏观力学响应之间的内在联系,从而可进一步探讨砂土液化的细观力学机制。数值模拟研究结果表明,砂土液化现象在宏观力学表现上反映为超静孔隙水压力的累积上升和平均有效主应力的不断减小,在细观组构上对应于配位数的累积损失和粒间接触力的不断减小。砂土液化细观机制分析表明,试样配位数的减少与循环加荷过程中组构各向异性滞后于应力各向异性有关。 相似文献
4.
5.
黄土边坡开挖过程中常遇到边坡发生变形甚至破坏的情况,不同的开挖速率导致边坡的变形特征也不相同。通过饱和黄土的卸载三轴试验,研究固结围压及卸载速率对卸载状态下饱和黄土的应力-应变特性、孔隙水压力的发展及应力路径的影响。试验表明,固结围压越大,土体破坏所需的偏应力越大,抗剪强度越大;卸载速率越大,对应的偏应力峰值越大,抗剪强度越大。卸载速率相同时,土体卸载初期的超静孔压为负值,增大至正值后孔压的增长速率在其增大过程中逐渐减小;固结围压越大,土样剪切过程中对应的孔隙水压力越大。卸载三轴试验中,土体均表现为应变软化的特性;饱和黄土破坏时的应变均为1%~3%,且固结围压越高,破坏时的应变越小。固结围压相同时,卸载速率越大,孔压增长速率越快,但孔隙水压力值越小。 相似文献
6.
煤的力学性质是制定钻完井与煤层气开发方案和工程措施的重要依据,也是影响煤层气储层改造效果的重要因素。煤内部含有大量的内生裂隙、构造裂隙和微孔隙,在不同应力条件下其力学参数具有显著差异。目前关于煤在不同应力条件下的有效力学参数变化规律及其内在原因的研究成果还较为欠缺,通过三轴压缩试验,可对不同应力状态下中阶煤有效弹性力学性质进行研究。研究表明,不同应力作用下煤的变形受孔隙、裂隙影响显著;在弹性变形阶段,随着围压的增加,中阶煤的有效弹性模量及有效泊松比有增加趋势,煤的有效弹性模量及有效泊松比与围压间呈非线性关系,且当围压增大到一定程度后有效弹性模量及有效泊松比趋于恒定。对应力状态影响煤有效弹性力学性质进行分析,给出了基于三轴压缩试验的含张裂缝中阶煤有效弹性模量及有效泊松比经验公式,同时对公式的适用性进行了分析。 相似文献
7.
基于泥质粉砂岩室内双轴压缩试验,建立PFC2D颗粒流数值模型,以此来探究泥质粉砂岩破坏的细观机理。考虑组成泥质粉砂岩试样的颗粒形状,根据电镜扫描图勾选出5种典型颗粒形状,与圆形颗粒一起生成给定孔隙率的稳定数值试样。颗粒间选用平行粘结接触模型,选取弹性模量、泊松比、峰值应力分别对饱和、天然状态的泥质粉砂岩试样进行不同围压下的细观参数标定,然后进行双轴压缩试验模拟,分析试样在双轴压缩试验过程中颗粒法向接触力、切向接触力、配位数、孔隙率等细观组构参数的分布特征和演化规律。试验结果表明:双轴压缩试验的细观参数标定可不考虑抗剪强度指标黏聚力c和内摩擦角ϕ值的影响。破坏前后,试样各方向统计范围内都存在法向接触力和切向接触力。围压的存在影响试样的起始配位数、孔隙率和试样破坏后的稳定配位数和孔隙率,对配位数和孔隙率的改变速率影响很小。试样空间孔隙率的演化在一定程度上反映了试样破坏时内部结构的变迁,能更加直观地反映试样的破坏模式。 相似文献
8.
人工胶结砂土力学特性的离散元模拟 总被引:1,自引:1,他引:0
采用离散单元法(DEM)对胶结砂土力学特性进行模拟。将基于室内试验测得的理想胶结颗粒接触力学响应引入到开发的二维离散元程序(NS2D)中,模拟胶结砂土颗粒间的胶结作用。对不同胶结强度和围压的胶结砂土进行平面应变双轴压缩试验模拟,并将模拟结果与Wang和Leung[1]提供的人工胶结砂土的试验结果进行比较。最后对数值模拟中胶结试样的微观力学响应(接触力链、胶结点破坏率和位移场)进行分析。结果表明,离散元数值模拟能够有效地反映胶结砂土的主要力学特性,相比同一初始孔隙比的无胶结松散砂土,胶结砂土将具有更高的强度,应力-应变关系呈应变软化,体变为先剪缩后剪胀,且两者的差异随胶结强度的增大和围压的减小而越趋显著。此外,胶结砂土宏观力学响应(应力-应变关系和剪胀性)与其微观力学响应密切相关。 相似文献
9.
以砂岩的室内试验数据为参照,使用颗粒流数值程序PFC3D,建立刚性颗粒组成的模型.通过设置颗粒接触模量、颗粒刚度比和接触粘结强度等细观力学参数,得到有合适宏观力学反应的模型.通过数值模拟获得砂岩微裂隙发展的过程,得到不同围压下砂岩的应力-应变曲线,反应出砂岩试样的弹性模量随围压增大而增大的性质.结果表明,PFC3D程序能够较好地模拟荷载作用下岩石的细观力学特性和宏观力学反应. 相似文献
10.
《岩土力学》2017,(9):2551-2558
泥炭质土是一种具有明显区域性的特殊土。通过一系列不同围压、固结比、加载频率等条件下的分级加载动三轴试验,研究了昆明泥炭质土在循环荷载作用下的动变形特性。从动骨干曲线、应力-应变滞回曲线和动弹性模量等方面重点分析了围压、固结比、加载频率对泥炭质土变形特性的影响。试验结果表明:泥炭质土的动应变随动应力幅值非线性增长,且存在某一临界动应力,当动应力幅值达到临界动应力值后,应变急剧增长,土体结构发生破坏;围压对泥炭质土动变形的影响最为显著,固结比次之,加载频率最小;固结比对泥炭质土动变形的影响程度依赖于围压,围压越大,固结比的影响越明显;相同循环振级下,泥炭质土的弹性变形随围压和固结比增大而减小,加载频率愈低,土体的弹性变形愈大;随着循环振次的增加和振级水平的提高,泥炭质土刚度逐渐下降,塑性变形产生并累积增长,围压和固结比越大,加载频率越低,泥炭质土的塑性变形越大。 相似文献
11.
A number of cyclic triaxial tests were carried out on mine tailings and natural sediment samples under undrained conditions
to investigate their resistance to cyclic loading. The tests were performed on more than 100 samples with a cyclic shear stress
ratio ranging from 0.10 to 0.40 under varying void ratio and the same confining pressure. It was observed that the axial strain
and excess pore water pressure increased with the number of loading cycles while the effective stress decreased with increasing
number of loading cycles. The liquefaction resistance of the tailings was also observed to be higher than that of natural
soils with similar particle size distribution, void ratio and plasticity index. It was observed that the influence of specific
gravity on the cyclic strength of mine tailings is significant. The results showed that the cyclic resistance of the tailings
was not strongly influenced by plasticity index for low plasticity tailings. A boundary relationship between void ratio and
normalized cyclic resistance ratio was established based on the results. 相似文献
12.
利用安装在共振柱测试系统中的弯曲-伸展元,开展了干砂中P波(压缩波)和S波(剪切波)的室内试验,详细地分析了干砂中P波和S波的信号特征,研究了输入频率、土体密实度和有效围压对输出信号的影响。对比各种信号分析方法,并参考共振柱试验结果确定了S波的传播时间。根据实测波速和波动理论,确定了土体的弹性参数,包括剪切模量,侧限模量和泊松比。研究结果表明,P波和S波的输出信号频率在一定程度上随输入信号频率、土体密实度和有效围压的增加而增加,且P波信号比S波信号更容易确定波的传播时间;土体的弹性模量随土体密实度和有效围压的增加而增加,但剪切模量增长比侧限模量快;土体的泊松比并非一个常数,随着土体密实度和有效围压的增加而下降。初步探讨了利用剪切模量估算泊松比,以方便实际工程应用。 相似文献
13.
对于粗颗粒土三轴固结排水剪试验,橡皮膜嵌入是影响试验体变测量的最重要因素。通过分析橡皮膜嵌入机制,指出影响膜嵌入量的主要因素如下:有效净压力p、平均粒径 、橡皮膜厚度 、弹性模量 、接触面积 ,以及初始孔隙比 。基于Kramer等给出的膜变形模式,根据板壳理论和弹性力学的基本方程,利用能量守恒定律推导出了考虑初始孔隙比的橡皮膜嵌入量解析解。同时,采用在中三轴试样中埋置不同直径铁棒的方法进行等向固结试验,获得各个围压下粗颗粒土试样的橡皮膜嵌入量。最后,将解析解与试验结果以及前人的解析解进行对比。结果表明,解析解计算得到的膜嵌入量和试验值吻合度较高,验证了所推导解析解的正确性与适用性。 相似文献
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Compaction grouting is the injection of a viscous grout into a soil under high pressure, which then densifies the surrounding soil by reducing void space. Laboratory and field tests of compaction grouting have been carried out. In this paper, a numerical model is used to simulate the compaction grouting process with the primary purpose of investigating relationships among various control parameters, such as injection pressure, void ratio and excess pore water pressure at various radial distances from the injection point. The compaction process is treated as a cavity expansion process in the numerical simulation. The soil is modelled with an elasto-plastic Mohr–Coulomb model using the commercial finite element program ABAQUS. In addition to numerical simulations, pressure-controlled cavity expansion laboratory tests were carried out on completely decomposed granite (CDG) soil specimens. Data collected from laboratory tests are compared with the finite element simulation to validate the finite element analyses. Factors that control the compaction process, such as the coefficient of earth pressure (K), initial void ratio, number of loading cycles and effective confining pressure, are explored in the numerical simulations. 相似文献
15.
Evaluation of Shear Modulus and Damping Ratio of Granular Materials Using Discrete Element Approach 总被引:1,自引:0,他引:1
In this paper, an attempt has been made to highlight the influence of different parameters such as number of cycles, confining pressure, void ratio, gradation, initial anisotropy and stress path on the dynamic properties of granular materials using Discrete Element Method (DEM). A series of strain controlled cyclic triaxial numerical simulations using three dimensional DEM have been carried out on an assembly of spheres. Dynamic properties such shear modulus (G) and damping ratio (D) were determined from the typical hysteresis loop obtained during cyclic triaxial test simulation. It has been observed from the test results that the numerical simulation using DEM has captured the variation of dynamic properties over a wide range of shear strain values for different parameters considered for the current investigation. Maximum shear modulus (G max) was found to be influenced by initial confining pressure, void ratio, gradation and initial anisotropy. Whereas, the damping ratio (D) was found to be influenced by number of cycles, initial confining pressure, gradation and stress path. Further it has been shown that the variation of shear modulus with shear strain can be divided into three distinct zones such as Isotropic Zone (IZ), Anisotropic Zone (AZ) and Stable Anisotropic Zone (SAZ). A drastic reduction of shear modulus with shear strain has been observed in the Anisotropic Zone (AZ). In addition, the results obtained using numerical simulations have been compared with the laboratory experimental values. 相似文献
16.
Several researchers have reported that the mean effective stress of unsaturated soils having a relatively high degree of saturation gradually decreases under fully undrained cyclic loading conditions, and such soils can be finally liquefied like saturated soils. This paper describes a series of simulations of fully undrained cyclic loading on unsaturated soils, conducted using an elastoplastic model for unsaturated soils. This model is a critical state soil model formulated using effective stress tensor for unsaturated soils, which incorporates the following concepts: (a) the volumetric movement of the state boundary surface containing the critical state line owing to the variation in the degree of saturation; (b) the soil water characteristic curve considering the effects of specific volume and hydraulic hysteresis; and (c) the subloading surface concept for considering the effect of density. Void air is assumed to be an ideal gas obeying Boyle's law. The proposed model is validated through comparisons with past results. The simulation results show that the proposed model properly describes the fully undrained cyclic behavior of unsaturated soils, such as liquefaction, compression, and an increase in the degree of saturation. Finally, the effects of the degree of saturation, void ratio, and confining pressure on the cyclic strength of unsaturated soils are described by the simulation results. The liquefaction resistance of unsaturated soils increases as the degree of saturation and the void ratio decrease, and as the confining pressure increases. Furthermore, the degree of saturation has a greater effect on the liquefaction resistance than the confining pressure and void ratio. Copyright © 2017 John Wiley & Sons, Ltd. 相似文献
17.
用经改造的GDS非饱和土三轴仪测得下蜀土在不同净围压下的变形特性和持水特性,并以van Genuchten模型对试验数据的拟合结果为基础,分析了净围压对下蜀土吸力应力特征曲线的影响,全面系统地研究了脱湿状态下南京下蜀土的土水-力学特性。研究表明,下蜀土的变形特性受净围压与基质吸力影响,基质吸力越高,下蜀土的压缩性越低,可以用二元指数函数本构模型分析孔隙比与应力状态变量间的关系。净围压使下蜀土持水能力增强,净围压与进气值呈幂函数关系。土的压缩性越高,净围压对其持水特性的影响越显著;随着净围压的增大,下蜀土孔隙比趋同,净围压对持水特性的影响逐渐减弱。外部荷载对下蜀土吸力应力特征曲线的影响是分段的,在边界效应区范围内,净围压增大时,吸力应力特征曲线间的差异逐渐减小;在过渡区范围内,吸力应力随状态变量变化的快慢程度不受外部荷载影响。根据双电层理论分析了高吸力时吸力应力的物理意义与计算方法,提出以界限有效饱和度作为吸力应力函数的分界点。 相似文献
18.
在黏粒含量和干密度恒定的情况下,进行了一系列重塑黄河三角洲饱和粉质土不排水动三轴试验,试样直径为50 mm、高为100 mm,重点研究了有效围压、动荷载和粉粒含量等因素对饱和粉质土液化特性的影响。试验结果表明:(1)在粉粒含量不小于50%的情况下,粉粒含量的增加降低了黄河三角洲饱和粉质土的液化势;(2)重塑黄河三角洲饱和粉质土的动强度随有效围压的增大而增大,与初次液化振动次数的对数近似呈线性关系;(3)与砂土相比,粉质土的动孔压很难达到有效围压,并且随有效围压的增大,相同条件下动孔压达到有效围压的比率降低;随粉粒含量的增加,其对动孔压的影响有减小的趋势;粉粒含量的增大减缓了动孔压的增长;(4)根据本次试验结果,给出了重塑黄河三角洲饱和粉质土的动孔压计算模型及相关参数取值。 相似文献