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1.
非饱和渗透系数是土体渗流分析的基础,成都黏土作为一种典型的非饱和膨胀土,具有吸水膨胀、失水收缩的特性,在受侧限的浸水过程中,土颗粒的膨胀致使孔隙体积减小,渗透性降低,使得直接对其进行非饱和渗透试验十分困难。根据瞬时剖面法的原理,利用EC-5土壤水分传感器测含水率、MPS-2电介质水势传感器直接同步测量同一位置的基质吸力,通过水平渗透试验研究了非饱和成都黏土在侧限条件下的渗透性。含水率和基质吸力的同步测量,保证了其测试条件的一致性,避免了采用其他土水特征曲线的影响。试验表明,试样的非饱和渗透系数为(1.33×10-11~3.14×10-9)m·s-1,非饱和渗透系数与基质吸力并非单调线性关系。基质吸力较高时,受膨胀土颗粒吸水膨胀的影响,渗透系数未出现明显变化,基质吸力降低到一定程度后,渗透系数快速增大。试验结束时土体已接近饱和,土中气体排出较慢,过水断面增加缓慢,促使渗透系数仍然持续增大。采用VG模型拟合k-s曲线,拟合参数α=0.048 kPa-1,n=1.79,m=0.48,试验结果可以用于成都黏土地区的渗流分析。 相似文献
2.
The quality of a numerical modeling solution of moisture flow through unsaturated soil, in part, depends on properly described
unsaturated soil properties. The variability of the Soil Water Characteristic Curve, SWCC, is attributed to hysteresis and
reproducibility of measurement. Because the unsaturated conductivity function is rarely directly measured, the variability
of the unsaturated soil hydraulic conductivity function is attributed to the uncertainty associated with the estimation of
this parameter with currently available fitting functions, and hence a range of reasonable variation was considered. One-dimensional
modeling of expansive soil under dry initial conditions (suction of 1,500 kPa) was performed; both potential evaporation and
infiltration boundary conditions were considered. It was found that small variations in the unsaturated soil hydraulic conductivity
function result in significantly different modeling outputs, as expected, while substential variation in SWCC alone (assuming
the same unsaturated soil hydraulic conductivity for all SWCCs) produced almost identical soil response in terms of soil suction
when the slope of the SWCC is similiar. Thus, proper characterization of the slope of the SWCC is important to proper suction
profile determination. 相似文献
3.
针对非饱和重塑黏土,利用改进的非饱和土静力-动力液压三轴-扭转多功能剪切仪,在固结排水(CD)条件下进行了应力控制式分级加载的循环三轴试验,通过对试验结果的对比分析,探讨了初始固结压力和基质吸力(孔隙气压力Ua与孔隙水压力Uw之差)对非饱和土动应力-动应变关系特性的影响。以此为基础,将Hardin-Drnerich等价黏弹性模型和Masing加卸载准则进行了改进,并得到了可以考虑基质吸力的非饱和黏土的等价黏弹性模型。进而对试验数据与模型预测结果进行比较,结果表明这种改进的非饱和土等价黏弹性模型能较好预测各种基质吸力下非饱和土的动应力-动应变关系。 相似文献
4.
非饱和含黏土砂毛细上升试验研究 总被引:2,自引:0,他引:2
采用MP406水分传感器、WM-1负压计和DT80数据记录仪等设备,开发了一套毛细上升试验系统,对非饱和含黏土砂做了3个不同初始含水率的毛细上升试验,得到了试样各个断面的含水率和吸力随时间的变化规律。研究表明:初始含水率对毛细上升高度和上升速度有显著影响,本套系统可测定毛细上升的实际高度,在土样渗透系数未知的情况下可对不同土样测定其毛细上升的最大高度;可根据湿润锋运动速度、土样含水率变化和吸力变化数值,确定非饱和土渗水系数,从而避免了渗透系数确定费时、费力的困难;可由吸力预测试样的渗水系数,只需测定该土的土-水特征曲线或进行吸力量测即可确定出该土在这一吸力下的渗水系数;并拟合出不同初始含水率试样的湿润锋随时间变化规律 相似文献
5.
非饱和土渗透系数函数跨越多个数量级,传统的测量方法动辄耗时数月,且难以实现全吸力范围内渗透系数的测量。为了实现全吸力范围内渗透系数的快速测量,将湿润锋前进法与瞬时剖面法相结合(简称联合测定方法),利用自行研制的土柱入渗装置,开展了不同干密度条件下青海粉质黏土全吸力范围内渗透系数测量试验。试验结果表明:在联合测定方法中,湿润锋前进法适用于高吸力段(基质吸力ψ > 25 kPa)渗透系数的测量,瞬时剖面法则适用于低吸力段(基质吸力ψ ≤25
kPa)渗透系数的测量,且两种方法在吸力重叠范围内渗透系数测量结果基本一致。联合测定方法可将全吸力范围内渗透系数的测量时长压缩至一周左右,且精度良好。此外,还对两种试验方法的误差来源进行了分析与讨论。研究结果表明:联合测定方法能够实现全吸力范围内渗透系数的快速测量,有望使得非饱和土渗透系数的测量成为土力学的常规试验。 相似文献
6.
渗流场水头分布计算是进行渗流量和渗流水力坡降计算的基础,准确、有效地求取渗流场水头分布是渗流计算的关键环节。对均质非饱和土体一维稳态流的流动方程进行分析,考虑到渗透系数是与基质吸力相关的函数,通过数学变换,给出了稳定渗流场的解析通式,并基于渗透性函数中的Gardner模型,给出了非饱和土一维稳态流水头垂直分布的解析解。该解析通式表明,均质非饱和土一维稳态流水头垂直分布主要受地表水头、深度和流动率3个因素控制。分别计算了一维稳态蒸发条件下粉土和黏土两种典型土类水头沿垂直方向的分布。计算结果表明:稳态蒸发条件下粉土层和黏土层内的水头分布表现出相似的变化规律,即自地表至地下水位处随着土层深度的增加,水头分布呈现出加速递减的趋势;在相同的蒸发条件下,对于相同深度处的黏土和粉土而言,黏土层内水头更高些;对同一种土类而言,在较大的蒸发状态下同一深度处土层内水头更高。反之,则较低。 相似文献
7.
裂隙易在降雨作用下诱发滑坡等灾害,裂隙的饱和/非饱和渗透特性是研究此类问题的关键。利用精密数控机床制作随机粗糙裂隙面,并研制了一套仪器进行此随机粗糙裂隙的渗流试验,得到了裂隙的饱和渗透系数,然后通过间接方法预测此裂隙的非饱和渗透系数。研究发现,当裂隙平均开度为0.4 mm时,其饱和渗透系数为0.1 m/s。通过立方定律得到的水力等效隙宽为0.35 mm,小于其平均隙宽。同时裂隙的渗透系数与平均隙宽的平方成正比,这与立方定律的趋势相一致。研究得到了不同隙宽裂隙的非饱和渗透系数函数,当基质吸力小于进气值时,渗透系数为一常数,即为饱和渗透系数;当基质吸力大于进气值时,裂隙板的渗透系数急剧减小。当裂隙板的基质吸力达到其残余含水率对应的吸力值时,裂隙板的渗透系数基本稳定。在此情况下,基质吸力的继续增加对渗透系数的影响非常小,很难使渗透系数减小。 相似文献
8.
This paper presents a three‐dimensional elastoplastic constitutive model for predicting the hydraulic and mechanical behaviour of unsaturated soils. It is based on experimental results obtained from a series of controlled‐suction triaxial tests on unsaturated compacted clay with different initial densities. Hydraulic hysteresis in the water‐retention behaviour is modelled as an elastoplastic process, with the elastic part modelled by a series of scanning curves and the elastoplastic part modelled by the main drying and wetting curves. The effect of void ratio on the water‐retention behaviour is studied using data obtained from controlled‐suction wetting–drying cyclic tests on unsaturated compacted clay with different initial densities. The effect of the degree of saturation on the stress–strain‐strength behaviour and the effect of void ratio on the water‐retention behaviour are considered in the model, as is the effect of suction on the hydraulic and mechanical behaviour. The initial density dependency of the compacted soil behaviour is modelled by experimental relationships between the initial density and the corresponding yield stress and, thereby, between the initial density and the normal compression line. The model is generalized to three‐dimensional stress states by assuming that the shapes of the failure and yield surfaces in the deviatoric stress plane are given by the Matsuoka–Nakai criterion. Model predictions of the stress–strain and water‐retention behaviour are compared with those obtained from triaxial tests with different initial densities under isotropic compression, triaxial compression and triaxial extension, with or without variation in suction. The comparisons indicate that the model accurately predicts the hydraulic and mechanical behaviour of unsaturated compacted soils with different initial densities using the same material constant. Copyright © 2006 John Wiley & Sons, Ltd. 相似文献
9.
The combined effect of clay and moisture content on the behavior of remolded unsaturated soils 总被引:2,自引:0,他引:2
Naser A. Al-Shayea 《Engineering Geology》2001,62(4):319-342
The behavior of unsaturated clayey soil is highly influenced by the coupled interaction between water and clay content. Various aspects of the behavior of artificial clay–sand mixtures with variable water content were experimentally studied. Laboratory tests were utilized for the determination of consistency limits, the stress–strain relationship, strength parameters, hydraulic conductivity, and volume change characteristics for various combinations of water and clay content in soil mixtures.
Results presented for various clay–sand mixtures include: new normalized consistency limits; the combined effect of clay content and water content on the stress–strain relationship and on the strength parameters (c and φ); and the effect of clay content on hydraulic conductivity and swelling potential. The cohesion of clayey sand is found to increase with increasing water content to a certain limit, above which it decreases. The angle of internal friction for clayey sand is found generally to decrease with increasing water content. The degree of saturation is found to be better than the water content in explaining the strength behavior. The hydraulic conductivity sharply decreases with increasing clay content up to 40% beyond which the reduction becomes less significant. Simple empirical equations are proposed for predicting the swelling potential of clayey soils as a function of either the clay content or plasticity index. 相似文献
10.
Samuel Boateng 《Hydrogeology Journal》2001,9(6):543-554
A variably saturated flow model is coupled to a first-order reliability algorithm to simulate unsaturated flow in two soils.
The unsaturated soil properties are considered as uncertain variables with means, standard deviations, and marginal probability
distributions. Thus, each simulation constitutes an unsaturated probability flow event. Sensitivities of the uncertain variables
are estimated for each event. The unsaturated hydraulic properties of a fine-textured soil and a coarse-textured soil are
used. The properties are based on the van Genuchten model. The flow domain has a recharge surface, a seepage boundary along
the bottom, and a no-flow boundary along the sides. The uncertain variables are saturated water content, residual water content,
van Genuchten model parameters alpha (α) and n, and saturated hydraulic conductivity. The objective is to evaluate the significance of each uncertain variable to
the probabilistic flow. Under wet conditions, saturated water content and residual water content are the most significant
uncertain variables in the sand. For dry conditions in the sand, however, the van Genuchten model parameters α and n are the most significant. Model parameter n and saturated hydraulic conductivity are the most significant for the wet
clay loam. Saturated water content is most significant for the dry clay loam.
Electronic Publication 相似文献
11.
为了研究压实黄土中的水分垂直入渗规律和非饱和渗透系数函数,在实验室内利用一维土柱垂直入渗模型试验装置,对两组压实黄土土柱试样分别进行了常水头入渗和降雨入渗试验。得到主要结论如下:(1)常水头入渗试验中,累积入渗量和湿润锋前进距离都随入渗时间呈幂函数形式增长,累积入渗量和湿润锋前进距离之间存在线性关系。入渗率在入渗初期最大,之后随入渗时间而快速降低,并在土柱试样底部出水以后达到稳定,且与湿润锋前进距离呈反比关系。(2)降雨入渗试验中,得到两组试样入渗过程中土-水特征曲线数据,分别用van Genuchten模型和Fredlund-Xing模型对两组试样进行了特征曲线拟合。并利用瞬时剖面法处理了入渗过程中水分和水势传感器的监测数据,得到两组试样的非饱和渗透系数,并拟合得到非饱和渗透系数与体积含水率之间的指数函数关系式。同时,采用van Genuchten和Fredlund等渗透系数模型分别对两组试样的非饱和渗透系数进行预测,通过对比模型预测结果和瞬时剖面法实测值,发现van Genuchten渗透系数模型预测结果更接近实测值。 相似文献
12.
晚更新世黄土渗透性的各向异性及其机制研究 总被引:3,自引:0,他引:3
非饱和黄土的渗透性是非饱和黄土性质的重要组成部分。研究黄土不同方向的渗透性对确定其湿陷范围和由于水的渗透引起的黄土滑坡具有很重要的理论意义。研究了黄土渗透性的各向异性特征及其机制。以具有明显各向异性的西安Q3原状黄土为研究对象,用TEN型张力计测量了黄土试样不同方向的、不同含水率下的吸力;用变水头渗透试验测量了黄土竖直和水平方向的饱和渗透系数。结果表明,当体积含水率在23%~41%时,张力计沿不同方向插入土样所测吸力相差不大;竖直方向的饱和渗透系数是水平方向的4.02倍。在吸力测量的基础上,根据土-水特征曲线,确定了竖直和水平方向的非饱和黄土的渗透系数。得出在黄土不同方向,随着吸力的增大或减小,渗透系数减小或增大;竖直方向的渗透系数普遍地大于水平方向的渗透系数;当吸力小于57 kPa时,随着吸力的增大,竖向渗透系数与水平向渗透系数的差值减小。通过观测黄土的结构,得出黄土结构对其渗透性有重要影响。 相似文献
13.
强度特性是非饱和土力学中基础性的研究内容。目前对广吸力范围内非饱和黏土强度的预测研究相对较少。本文首先基于文献中粉质黏土、Madrid黏土和南阳弱膨胀土的非饱和强度特性进行了对比与分析。将不同类型非饱和黏土的强度特性大致分为3种类型:(1)在某一吸力范围试样出现强度峰值,并随着吸力值的进一步增大而降低;(2)达到某一吸力值后其强度几乎维持不变,不受吸力值的影响;(3)其强度随着吸力值的增大而增大。此外,基于现有考虑吸附水膜和毛细水作用的方法拟合广吸力范围内不同类型土的土水特征曲线,并将土水特征曲线分离成吸附土水特征曲线和毛细土水特征曲线。在非饱和土的抗剪强度公式中,认为吸力引起的非饱和强度增强部分主要由毛细水作用决定的,故将非饱和抗剪强度公式中吸力引起非饱和增强项的有效应力系数(即饱和度或有效饱和度)用毛细水对应的饱和度替代。最后,利用修正后的非饱和抗剪强度公式对3种较广吸力范围内非饱和土的强度进行了预测。预测结果表明过渡区段内的强度预测效果较好,但高吸力段非饱和强度的预测还有待进一步研究。 相似文献
14.
确定滤纸法试验平衡时间的数值模拟 总被引:1,自引:0,他引:1
滤纸法是一种测量非饱和土基质吸力的重要方法,而测量结果是否准确,控制滤纸法的试验时间非常重要.基于有限元数值分析软件SEEP/W,建立滤纸法的数值模型,分析滤纸法试验过程中的水分运移过程,研究非饱和黏土的水力参数、初始重力含水率、初始干密度等因素对滤纸法平衡时间的影响.结果表明,试验开始时,干燥滤纸会迅速吸水,随后滤纸与土样吸力才逐渐平衡,以含水率为判断标准得到的平衡时间Tw会小于以吸力为判断标准得到的平衡时间Tψ,建议滤纸法的实际试验时间接近于Tψ.滤纸法的平衡时间约为4~16 d,当土样饱和渗透系数较小时,滤纸法的平衡时间大大增加,平衡时间随土水特征参数a、n、饱和渗透系数、初始含水率及干密度的增大而减小,随饱和体积含水率的增加而增加. 相似文献
15.
土−水特征曲线在研究非饱和土的水力与力学特性中发挥着重要的作用。生物炭具有多孔结构、高比表面积和强吸附的特性。将生物炭改性土应用于垃圾填埋场上覆盖层,因受自然环境因素的影响会使其水力特性发生改变。为了研究全吸力范围内生物炭掺量对生物炭−黏土混合土保水特性的影响,利用蒸汽平衡法(吸力范围 3~368 MPa)、滤纸法(吸力范围 0 ~40 MPa)和压力板法(吸力范围 0~1.5 MPa)控制土样的吸力,测定吸力平衡后土样的含水率和饱和度,得到全吸力范围内生物炭−黏土混合土的土−水特征曲线。试验结果表明:(1)3种吸力测试方法很好地表达了生物炭−黏土混合土全吸力范围内的土−水特征曲线。(2)生物炭能够影响黏土的保水性,但在一定的吸力范围内,生物炭−黏土混合土的保水性还与孔隙结构和孔隙中水的形态相关。(3)通过压力板法测得,试样的进气值随着生物炭掺量的增加而减小。当吸力值小于进气值时,曲线出现水平段,土样始终处于饱和状态,生物炭掺量越大,试样的保水性越好。(4)由生物炭−黏土混合土微观孔隙结构以及生物炭在黏土中的分布形态来解释生物炭改性黏土的保水能力随生物炭掺量的变化关系。 相似文献
16.
17.
在我国西北干旱半干旱地区,处于高吸力范围内的非饱和土广泛存在于各种岩土工程中。非饱和土土水特性的研究是非饱和土渗流、强度与变形研究的基础。为研究高吸力下不同初始孔隙比非饱和土的土水特性,以一种粉土试样作为研究对象,采用饱和盐溶液蒸汽平衡法控制土试样的吸力,利用阿基米德原理量测不规则土试样的体积,通过修正的Van-Gen... 相似文献
18.
An unsaturated hydraulic conductivity model for compacted GMZ01 bentonite with consideration of temperature 总被引:1,自引:0,他引:1
W. M. Ye M. Wan B. Chen Y. G. Chen Y. J. Cui J. Wang 《Environmental Earth Sciences》2014,71(4):1937-1944
As one of the most important properties of compacted bentonite used as buffer/backfill materials, hydraulic conductivity is influenced by various factors including temperature, microstructure and suction (or degree of saturation), etc. Based on the readily available results of both temperature-controlled water-retention tests and unsaturated infiltration tests under confined (constant volume) conditions, influences of temperature and microstructure variations on unsaturated hydraulic conductivity of the compacted Gaomiaozi (GMZ01) bentonite were analyzed. Then, a revised unsaturated hydraulic conductivity model considering temperature effects and microstructure changes was developed. With this proposed model, prediction and comparison were made on the unsaturated hydraulic conductivity of the compacted GMZ01 bentonite at 20 °C. Results show that water-retention capacity of compacted GMZ01 bentonite decreases as temperature increases and the degree of the temperature influence depends on suction. Under confined conditions, influence of hydration on microstructure of compacted GMZ01 bentonite depends on pore size. The proposed model can well describe the variations of unsaturated hydraulic conductivity with suction at different temperatures. However, further improvement of the proposed model is needed to account for the phenomenon of inter-aggregate pores clogging that occurred at the initial stage of hydration of compacted GMZ01 bentonite under confined conditions. 相似文献
19.
三峡库区黄土坡滑坡非饱和水力参数研究 总被引:1,自引:0,他引:1
非饱和水力参数在计算滑坡降雨入渗过程与稳定性时是至关重要的材料参数。在三峡库区黄土坡滑坡上进行双环渗透试验,获取黄土坡滑坡表土层的饱和渗透系数。对黄土坡滑坡表土层的含水率和基质吸力进行实时监测,采集了黄土坡滑坡表土层中含水率和基质吸力随时间的变化数据,采用van Genuchten土-水特征曲线模型拟合了4个实时监测剖面的土-水特征曲线及其拟合参数。将饱和渗透系数与土-水特征曲线拟合参数代入van Genuchten渗透系数函数模型,求出了黄土坡滑坡表土层在非饱和条件下的渗透系数函数,为黄土坡滑坡在降雨作用下的稳定性计算提供了可靠的水力参数 相似文献
20.
Cavity expansion in unsaturated soils exhibiting hydraulic hysteresis considering three drainage conditions 
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下载免费PDF全文 Cavity expansion theory assists in the interpretation of in situ tests including the cone penetration test and pressuremeter test. In this paper, a cavity expansion analysis is presented for unsaturated silty sand exhibiting hydraulic hysteresis. The similarity technique is used in the analysis. The soil stress–strain behaviour is described by a bounding surface plasticity model. Results of oedometric compression tests, isotropic compression tests and triaxial shear tests for both saturated and unsaturated states are used to calibrate the model. The void ratio, suction, degree of saturation and effective stress are fully coupled in the analysis. The influence of where the initial hydraulic state is located on the soil–water characteristic curve on the cavity wall pressure is investigated and found to be significant. Also, the effects of three different drainage conditions (constant suction, constant moisture content and constant contribution of suction to the effective stress) on cavity wall pressure are studied. It is found that the drainage condition in which the contribution of suction to the effective stress is constant offers a good approximation to the other two. This may simplify interpretation of in situ tests. When testing occurs quickly, meaning a constant moisture content condition prevails, a constant contribution of suction condition can be assumed without loss of significant accuracy. The contribution of suction assumed in the interpretation can be taken as being equal to the in situ value, although this discovery may not be applicable to all soil types, constitutive models and soil–water characteristic curves. Copyright © 2015 John Wiley & Sons, Ltd. 相似文献