非饱和土层一维固结特性分析   总被引：1，自引：0，他引：1  

秦爱芳  羌锐  谈永卫  孙德安 《岩土力学》2010,31(6):1891-1896

在Fredlund非饱和土的一维固结理论的基础上进行假设,由得出的液相及气相的控制方程、Darcy定律及Fick定律,采用Laplace 变换、逆变换等数学方法得到了大面积均布瞬时加载下表面为透水透气面、底面为不透水和不透气面的非饱和土层一维固结时间域内的超孔隙水压力、超孔隙气压力及土层沉降的解析解;应用典型算例,分析了不同气、水渗透系数比情况下土体超孔隙水压力、超孔隙气压力消散及土层沉降随时间的变化规律以及不同时间超孔隙水压力、超孔隙气压力消散随深度的变化规律。将得出的结果退化成相应的饱和土的解与太沙基饱和土固结理论结果比较,验证了其正确性。  相似文献   

混合非齐次边界下非饱和土一维固结解析解     

《岩土力学》2021,(4)

非饱和土的固结研究对道路工程、软土地基处理工程等具有十分重要的意义。基于Fredlund和Hasan提出的非饱和土一维固结理论,给出了土体内孔隙水压力和孔隙气压力变化的控制方程,并给出了单层非饱和土的初始条件与一类随时间变化的混合非齐次边界条件,构成了非饱和土一维固结的定解问题。通过非齐次边界条件齐次化和特征函数展开法,得到了土体内孔隙水压力和孔隙气压力消散的精确时域解析解。最后,通过对比验证了解析方法的正确性,并分析了边界条件指数变化对非饱和土体内孔隙水压力和孔隙气压力的消散以及土体沉降的影响。结果表明,边界处孔压或孔压梯度随时间的指数变化对非饱和土固结过程有明显影响。  相似文献   

考虑渗透系数变化的非饱和土固结性状分析     

秦爱芳  张九龙 《岩土力学》2015,36(6):1521-1528

基于Fredlund非饱和土一维固结理论,研究了有限厚度的表面透水透气、底面不透水不透气的线弹性和黏弹性非饱和土地基在加荷随时间指数性变化时的一维固结特性。分别得到了两类地基在固结过程中同时考虑液相、气相渗透系数非线性变化和仅考虑液相渗透系数变化两种情况下的半解析解答。利用典型算例进行计算,分析了不同情况下两类地基中超孔隙水、气压力消散以及地基固结度随时间的变化规律,并与不考虑渗透系数变化时的半解析解计算结果进行了对比。结果发现：固结过程中渗透系数呈非线性变化;只考虑液相渗透系数变化时,超孔隙气压力的消散变化不大,超孔隙水压力的消散加快;气相渗透系数变化对超孔隙气的消散产生明显影响,对超孔隙水压力消散影响不大。同时考虑液相和气相渗透系数变化时,土体中超孔隙水、气压力的消散均有明显变化,土体固结速度也相应加快;分析结果对非饱和土固结的进一步研究具有重要意义。  相似文献   

饱和软土大应变自重固结非线性分析     

龚文惠  赵旭东  邱金伟  李逸  杨晗 《岩土力学》2019,40(6):2099-2107

饱和软土的自重固结涉及许多复杂的非线性问题,而现有分析方法一般基于线性假设,将固结控制方程简化,在沉降变形较大的情况下并不合理。基于Gibson大变形固结方程,推导在单面排水和双面排水条件下的边界条件,综合考虑饱和软土的自重特性与非线性压缩、渗透关系,采用稳定性较好的Crank-Nicolson型差分格式离散并求解非线性控制方程,并从孔隙比、沉降、孔隙水流速3个方面将数值解与CS2固结数值模型进行对比验证。结合工程实例,研究土层不同初始厚度和初始孔隙比对自重固结的影响。结果表明：初始厚度与初始孔隙比较大土层最终沉降也较大。与传统方法相比,该方法所得出的数值解精度较高,实现了高度非线性固结方程的快速求解,其成果更能广泛运用于实际工程的分析之中。  相似文献   

非饱和土一维热固结理论研究     

秦爱芳  刘海生  李林忠 《工程地质学报》2024,(1):265-274

为研究温度变化对非饱和土一维固结的影响,本文建立了非等温状态下的非饱和土固结模型,并且给出了半解析解。首先,结合Dakshanamurthy等提出的非饱和土一维热固结方程与Aldrich建立的一维热传导方程,建立了更完善的非饱和土一维热固结问题的控制方程。其次,采用Laplace变换与Laplace逆变换等方法,得到了非等温条件下超孔隙气压力、超孔隙水压力及土层沉降的半解析解。另外,将得到的解分别退化为非饱和土一维等温固结情况及饱和土一维热固结情况,与现有文献结果对比,证明了本研究的可靠性。最后采用算例分析了不同热扩散系数和温度对非饱和土地基固结的影响。结果表明：热扩散系数与温度在一定范围内的变化会对非饱和土固结的速度产生显著的影响,且热扩散系数的增大会增加固结速率,温度的升高会减小最终沉降量。  相似文献   

非饱和土一维固结混合流体方法的解析分析     

苏万鑫  谢康和 《岩土力学》2010,31(8):2661-2665

对采用混合可压缩流体方法分析非饱和土一维固结问题的固结方程进行了求解,在得到的解析解的基础上,对影响非饱和土一维固结的因素进行了分析。分析结果表明,在采用混合流体方法计算非饱和土一维固结的孔隙水压力时,所用公式与计算饱和土一维固结的太沙基理论公式基本相同,不同之处在于引入Bishop有效应力系数来体现孔隙气对孔隙水的影响。而在非饱和土孔隙气压的计算公式中除了体现孔隙水对孔隙气的影响参数以外,还有体现孔隙气体的可压缩性对固结影响的参数。在所有影响因素中,影响非饱和土一维固结最重要的因素是孔隙流体的渗流路径。  相似文献   

沉积泥砂非线性大变形固结沉降计算模型     

郭帅杰  王保田  张福海 《岩土力学》2013,34(10):3003-3010

沉积形成的水底黏性泥砂自重固结过程表现出显著非线性大变形固结特征,应采用大变形固结理论进行泥砂沉积固结计算。基于软黏土一维非线性大应变固结理论,应用有效应力、渗透系数与孔隙比间扩展幂次函数固结本构关系,由达西定律、有效应力原理、连续介质方程等建立大变形固结控制方程,根据固结单元孔隙水渗流、单元变形与泥砂沉积层固结沉降耦合关系形成黏性泥砂大变形自重固结数值模型。泥砂自重作为固结荷载,数值模型假定沉积泥砂各向同性且固结沉降应变、孔隙水渗流仅发生于竖直方向,为一维单向沉积固结过程;采用泥砂沉降柱试验确定泥砂非线性扩展幂次函数关系参数。模型应用中,划分竖向固结单元,由沉积泥砂固结本构关系确定各固结单元有效应力及超孔隙水应力,通过超孔隙水应力时间维度上的消散过程及各固结参数间的耦合关系计算泥砂固结沉降。数值模型计算结果表明,沉积黏性泥砂自重固结初期表现为有效应力调整过程,初始有效应力与孔隙比根据固结本构关系匹配调整为扩展幂次函数关系;沉积泥砂应变与应力固结度存在20%左右误差,泥砂固结沉降发展快于超孔隙水应力消散过程,证明沉积泥砂固结沉降变形的发展与超孔隙水应力消散并非同步耦合。计算模型应用于室内沉降柱试验模拟淤积黏性泥砂自重固结沉降预测中,模型输出与试验结果符合良好。  相似文献   

非饱和土二维固结简化计算的研究   总被引：3，自引：0，他引：3  

曹雪山  殷宗泽 《岩土力学》2009,30(9):2575-2580

针对较高饱和度的非饱和土二维固结问题展开研究。对于较高饱和度的非饱和土,如饱和度 时,将孔隙中气、水近似地看作可压缩的气、水混合流体后,非饱和土近似为土骨架和混合流体的二相土。考虑混合流体的压缩性,建立混合流体的连续方程。联立平衡方程和混合流体的连续方程,求出应力-应变和混合流体压力;再建立水连续方程求解水压力,继而求出气压力、吸力等。算例表明：加载和消散过程中,混合流体与水压力变化基本一致,气压的作用并不大;地基变形过程与高速公路填筑过程中地基变形发生规律一致。说明该简化方法是合理的,并促进了非饱和土固结变形计算走向实用化。  相似文献   

盾构施工引起的固结沉降分析   总被引：1，自引：0，他引：1  

敖日汗  张义同 《岩土力学》2011,32(7):2157-2161

盾构在低渗透性土层中开挖,常常伴随着地表下沉,究其原因为超孔隙水压力消散引起固结沉降的结果。为对盾构施工引起土体的固结沉降进行研究,首先,根据隧道施工前后土体应力的变化值,应用Henkel超孔隙水压力理论,推导了隧道开挖引起的初始超孔隙水压力的计算公式,并采用数值分析方法,考虑了由于土体的固结引起的沉降变形。研究成果应用到上海地铁2号线,根据具体的地质条件进行理论计算分析。结果表明,隧道开挖引起的初始超孔隙水压力最大值位于隧道起拱线处,地表固结沉降预测值与实测值吻合较好。  相似文献   

非饱和土拟二维平面应变固结问题的解析计算方法     

《岩土力学》2021,(2)

基于Fredlund非饱和土一维固结理论,建立了二维平面应变条件下的固结方程组,并得到了单层非饱和土平面应变条件下的解析解。首先,基于相关理论,假设体变系数和渗透系数都为常量,同时考虑到瞬时加载条件下,沿着土体深度方向上产生均匀或者线性分布的初始超孔隙压力,建立了二阶二元偏微分方程组。求解时,引入函数方法来降低方程的阶数,然后通过分离变量法获得方程的通解。在此基础上,结合一个针对单面排水条件下二维平面应变问题的案例,通过与数值解对比验证本文方法的正确性。并采用本文方法计算获得二维平面下超孔隙水、气压力沿垂直和水平方向消散的等时线,通过计算对比,分析了不同线性分布情况下,初始超孔隙压力对固结消散过程的影响。研究结果表明：初始超孔隙压力的不同分布对超孔隙气压力消散影响几乎可以忽略,而对超孔隙水压力的消散影响更大。  相似文献   

Semi‐analytical solution to one‐dimensional consolidation for unsaturated soils with semi‐permeable drainage boundary under time‐dependent loading          下载免费PDF全文

L. Wang  D. A. Sun  A. F. Qin  Y. F. Xu 《国际地质力学数值与分析法杂志》2017,41(16):1636-1655

This paper presents semi‐analytical solutions to Fredlund and Hasan's one‐dimensional consolidation of unsaturated soils with semi‐permeable drainage boundary under time‐dependent loadings. Two variables are introduced to transform two coupled governing equations of pore‐water and pore‐air pressures into an equivalent set of partial differential equations, which are easily solved by the Laplace transform. The pore‐water pressure, pore‐air pressure and settlement are obtained in the Laplace domain. Crump's method is adopted to perform the inverse Laplace transform in order to obtain semi‐analytical solutions in time domain. It is shown that the present solutions are more general and have a good agreement with the existing solutions from literatures. Furthermore, the current solutions can also be degenerated into conventional solutions to one‐dimensional consolidation of unsaturated soils with homogeneous boundaries. Finally, several numerical examples are provided to illustrate consolidation behavior of unsaturated soils under four types of time‐dependent loadings, including instantaneous loading, ramp loading, exponential loading and sinusoidal loading. Parametric studies are illustrated by variations of pore‐air pressure, pore‐water pressure and settlement at different values of the ratio of air–water permeability coefficient, depth and loading parameters. Copyright © 2017 John Wiley & Sons, Ltd.  相似文献   

A simple analytical solution to one‐dimensional consolidation for unsaturated soils     

Wan‐Huan Zhou  Lin‐Shuang Zhao  Xi‐Bin Li 《国际地质力学数值与分析法杂志》2014,38(8):794-810

This paper presents a simple analytical solution to Fredlund and Hasan's one‐dimensional (1‐D) consolidation theory for unsaturated soils. The coefficients of permeability and volume change for unsaturated soils are assumed to remain constant throughout the consolidation process. The mathematical expression of the present solution is much simpler compared with the previous available solutions in the literature. Two new variables are introduced to transform the two coupled governing equations of pore‐water and pore‐air pressures into an equivalent set of partial differential equations, which are easily solved with standard mathematical formulas. It is shown that the present analytical solution can be degenerated into that of Terzaghi consolidation for fully saturated condition. The analytical solutions to 1‐D consolidation of an unsaturated soil subjected to instantaneous loading, ramp loading, and exponential loading, for different drainage conditions and initial pore pressure conditions, are summarized in tables for ease of use by practical engineers. In the case studies, the analytical results show good agreement with the available analytical solution in the literature. The consolidation behaviors of unsaturated soils are investigated. The average degree of consolidation at different loading patterns and drainage conditions is presented. The pore‐water pressure isochrones for two different drainage conditions and three initial pore pressure distributions are presented and discussed. Copyright © 2013 John Wiley & Sons, Ltd.  相似文献   

Consolidation in spatially random unsaturated soils based on coupled flow‐deformation simulation          下载免费PDF全文

Y. Cheng  L.L. Zhang  J.H. Li  L.M. Zhang  J.H. Wang  D.Y. Wang 《国际地质力学数值与分析法杂志》2017,41(5):682-706

This paper integrates random field simulation of soil spatial variability with numerical modeling of coupled flow and deformation to investigate consolidation in spatially random unsaturated soil. The spatial variability of soil properties is simulated using the covariance matrix decomposition method. The random soil properties are imported into an interactive multiphysics software COMSOL to solve the governing partial differential equations. The effects of the spatial variability of Young's modulus and saturated permeability together with unsaturated hydraulic parameters on the dissipation of excess pore water pressure and settlement are investigated using an example of consolidation in a saturated‐unsaturated soil column because of loading. It is found that the surface settlement and the pore water pressure profile during the process of consolidation are significantly affected by the spatially varying Young's modulus. The mean value of the settlement of the spatially random soil is more than 100% greater than that of the deterministic case, and the surface settlement is subject to large uncertainty, which implies that consolidation settlement is difficult to predict accurately based on the conventional deterministic approach. The uncertainty of the settlement increases with the scale of fluctuation because of the averaging effect of spatial variability. The effects of spatial variability of saturated permeability k_sat and air entry parameters are much less significant than that of elastic modulus. The spatial variability of air entry value parameters affects the uncertainties of settlement and excess pore pressure mostly in the unsaturated zone. Copyright © 2016 John Wiley & Sons, Ltd.  相似文献   

A closed form analytical solution for two‐dimensional plane strain consolidation of unsaturated soil stratum          下载免费PDF全文

L. Ho  B. Fatahi  H. Khabbaz 《国际地质力学数值与分析法杂志》2015,39(15):1665-1692

This paper discusses the excess pore‐air and pore‐water pressure dissipations and the average degree of consolidation in the 2D plane strain consolidation of an unsaturated soil stratum using eigenfunction expansion and Laplace transformation techniques. In this study, the application of a constant external loading on a soil surface is assumed to immediately generate uniformly or linearly distributed initial excess pore pressures. The general solutions consisting of eigenfunctions and eigenvalues are first proposed. The Laplace transform is then applied to convert the time variable t in partial differential equations into the Laplace complex argument s. Once the domain is obtained, a simplified set of equations with variable s can be achieved. The final analytical solutions can be computed by taking a Laplace inverse. The proposed equations predict the two‐dimensional consolidation behaviour of an unsaturated soil stratum capturing the uniformly and linearly distributed initial excess pore pressures. This study investigates the effects of isotropic and anisotropic permeability conditions on variations of excess pore pressures and the average degree of consolidation. Additionally, isochrones of excess pore pressures along vertical and horizontal directions are presented. It is found that the initial distribution of pore pressures, varying with depth, results in considerable effects on the pore‐water pressure dissipation rate whilst it has insignificant effects on the excess pore‐air pressure dissipation rate. Copyright © 2015 John Wiley & Sons, Ltd.  相似文献   

Analytical solution for one-dimensional consolidation of clayey soils with a threshold gradient     

Kang-He Xie  Kun WangYu-Lin Wang  Chuan-Xun Li 《Computers and Geotechnics》2010

General approximate analytical solutions are developed for one-dimensional consolidation with consideration of the threshold gradient under a time-dependent loading. A comparison is made between the present solution and some available numerical solutions for a particular case, and the results show that the approach employed in this article is reasonable. The influence of the threshold gradient and the loading period on consolidation behaviour is investigated, and the results show that the moving boundary of seepage moves downward gradually. The greater the threshold gradient is, the slower the boundary moves. The excess pore pressure will not be completely dissipated at the end of consolidation, and the larger the threshold gradient is, the greater the residual excess pore pressure is. The average degree of consolidation considering the threshold gradient defined by settlement is different from that defined by pore pressure. Moreover, the greater the threshold gradient is, the larger the average degree of consolidation in terms of strain, whereas the smaller the average degree of consolidation in terms of stress. It is also shown that the longer the loading period is, the longer the time moving boundary takes to reach the bottom of the layer, and the greater the average degree of consolidation is.  相似文献   

非饱和粉质粘土固结压缩特性及体变试验研究   总被引：2，自引：0，他引：2  

吴丽君  蒋关鲁  李安洪  梁栋 《现代地质》2009,23(3):559-563

为进一步研究与基质吸力相关联的非饱和土固结压缩特性,扩展非饱和土固结理论在工程实际中的适用性,通过分析非饱和粉质粘土水土特征曲线变化规律,对非饱和土固结变形机理进行研究。试验结果表明：非饱和土的最终沉降量仅与土骨架的压缩模量有关。对于不同饱和度的非饱和土而言,固结速度随初始饱和度的增加而减小,饱和土固结过程所需要的时间比非饱和土固结过程所需要的时间短。由于孔隙流体的压缩性导致高饱和土体的瞬时沉降比低饱和土体的瞬时沉降小,但高饱和土体的后期固结沉降受饱和度和吸力的影响,比低饱和土体要大得多。   相似文献   

竖井地基的大应变固结分析     

杨鹏  蒲诃夫  宋丁豹 《岩土力学》2019,40(10):4049-4056

简单介绍了真空-堆载联合预压下饱和软土竖井地基大变形固结沉降模型（VRCS1模型）,该模型能考虑大应变、材料非线性、非达西流、真空折损和竖井未打穿等因素。使用该模型对澳大利亚巴利纳支路某现场沉降进行预测,结果与现场实测数据吻合良好。基于该工程案例,讨论了分级堆载、循环荷载、真空联合堆载、上边界为等应力/等应变条件以及排水板打入深度等因素对竖井地基固结过程的影响规律。计算结果表明：分级堆载可降低土体超静孔压峰值进而改善土体稳定性;循环荷载使土体固结过程发生震荡,且土体沉降峰值迟于超静孔压峰值和荷载峰值出现;真空荷载和堆载作用机制有本质区别,真空荷载不可简单以堆载替代;上边界等应变条件下的固结速率一般快于等应力条件,工程真实条件一般介于两者之间;排水板打入深度超过0.9倍土层厚度时,再加大打入深度加速固结效果不明显。  相似文献   

循环荷载下双曲线模型修正土体一维固结解     

张磊  孙树林  龚晓南  张杰 《岩土力学》2010,31(2):455-460

假定土体的应力-应变关系满足双曲线模型、渗透系数的降低与压缩系数的减小成正比以及初始有效应力沿深度均匀分布,推导出任意荷载下单层地基的非线性一维固结方程。结合具体的定解条件采用分离变量法求出土体有效应力的通解,并进一步求出超静孔隙水压力、按沉降定义的平均固结度Us以及按孔隙水压力定义的平均固结度Up的通解。根据通解求出梯形低频循环荷载作用下的解,并找出循环荷载作用下土体固结性状的影响因素。基于循环荷载作用下的解,采用FORTRAN语言编制了计算程序,计算并分析考虑土体本构关系非线性时的固结性状,以及反映土体本构特征的参数E和n对固结性状的影响。计算结果表明：①Us稍大于Up;②距排水平面越近,附加有效应力受加载方式的影响越明显,距排水平面越远则相反;③E和n对Us的影响很小,可以忽略不计;④E和n对Up和附加有效应力的影响较大且不容忽略。  相似文献   

离心模型试验模拟塑料排水板处理软土地基的方法和应用     

王存  侯瑜京  刘国宝  彭仁 《地质力学学报》2016,22(1):125-134

采用大型土工离心机对某工程近海软土地基上堤坝施工期及运行期进行了模拟。试验中采用停机加载法模拟分级施工加载过程, 原型中采用塑料排水板固结法处理软土地基, 模型中则根据固结过程相似的原理, 换算成等效圆截面排水体, 在模型制作中采用等效透水滤芯进行模拟。根据激光位移传感器和孔隙水压力传感器数据可以得出相应原型软土地基的沉降特性和孔隙水压力变化情况。根据试验得到的沉降曲线, 采用"经验双曲线法"推算出了地基最终沉降, 然后得出按沉降推算的分层地基平均固结度随时间的变化。对比试验模拟得到的软土地基固结度和理论计算结果, 二者基本接近, 表明塑料排水板模拟方法用于离心模型试验是可行的。   相似文献