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1.
In this paper, a simple semi‐analytical method has been developed to solve the one‐dimensional non‐linear consolidation problems by considering the changes of compressibility and permeability of the soil layer, subjected to complicated time‐dependent cyclic loadings at the ground surface. The solution presented here takes into account e ~ lg kv and e ~ lg σ′ linear responses. With ck the slope of the e ~ lg kv line and cc as the slope of the e ~ lg σ′ line, the identified parameter cc/ck is found to control the rate of consolidation. Using the solutions obtained, some diagrams are prepared and the relevant behaviours of one‐dimensional non‐linear consolidation of saturated soft soil under cyclic loadings are discussed. The method in this paper does not require any special data; conventional oedometer data can be used. Therefore, the method is particularly efficient and convenient for engineering practice. Copyright © 2006 John Wiley & Sons, Ltd. 相似文献
2.
Hydraulic Conductivity and Coefficient of Consolidation of Two Sulphide Clays in Sweden 总被引:1,自引:0,他引:1
The variation and anisotropy in hydraulic conductivity and the coefficient of consolidation was investigated for two Swedish
sulphide clays. A series of constant rate of strain oedometer tests was performed on samples trimmed in the vertical and horizontal
direction. A methodology to evaluate the horizontal coefficients of consolidation c
h
via the horizontal hydraulic conductivity k
h
and the vertical compression modulus M
v
is proposed. Laboratory evaluations of c
h
are also compared with determinations of c
h
from in situ piezometer measurements in vertically drained sulphide clay. Furthermore, the validity of the empirical correlation
between hydraulic conductivity change index C
k
and initial void ratio e
0, C
k
= 0.5e
0 (Tavenas et al. in Can Geotech J 20(4):645–660, 1983b), was investigated for the sulphide clays. The results from the investigation show large ranges in measured hydraulic conductivities
and coefficients of consolidation. However, the results indicate that the correlation C
k
= 0.5e
0 is valid. The anisotropy in hydraulic conductivity and the coefficient of consolidation of the sulphide clays tested seems
to be small. For design purposes, multiple tests for assessment of hydraulic conductivity and the coefficient of consolidation
should be made, and a partial factor of safety, depending on the requisite level of safety and the spatial variability of
the parameters, should be introduced. For design purposes in this type of clay, k
h
= k
v
and c
h
= c
v
are suggested. 相似文献
3.
The settlement of a structure founded on clay comprises of immediate and consolidation settlements. In the case of clays, consolidation settlement is more than immediate settlement. The parameters influencing consolidation settlement of a normally loaded clay layer are degree of saturation (S%), void ratio (e) of soil prior to excavation, amount of overburden (σo) removed, amount of rebound and intensity of loading (σ) upon building superstructure. This paper presents the effect of the above parameters on compressibility characteristics of a clay. The different steps undertaken for footing construction were simulated in the laboratory. Remoulded clay samples were prepared from oven-dry fraction passing 425 μm sieve. The density of the samples was kept constant at 13 kN/m3. Degree of saturation was varied at 25%, 50%, 75% and 100%. The surcharge on the samples (overburden in the case of field clay layer) was varied as 25 kPa, 50 kPa and 100 kPa. Compressibility characteristics such as initial compression under the applied surcharge (overburden), rebound upon removal of surcharge and recompression were studied through one-dimensional consolidation tests. The rate and amount of initial compression, rebound, e-σ and e-log σ curves, compression index (Cc), coefficient of compressibility (av) and coefficient of volume compressibility (mv) were studied. 相似文献
4.
Effects of salt solutions on the hydro-mechanical behavior of compacted GMZ01 Bentonite 总被引:1,自引:1,他引:0
In this study, the effects of salinity of infiltrating solutions on the swelling strain, compressibility, and hydraulic conductivity of compacted GMZ01 Bentonite were investigated. After swelling under vertical load using either distilled water or NaCl solutions with concentrations of 0.1, 0.5 M, and 1 M, laboratory oedometer tests were conducted on the compacted GMZ01 Bentonite. Based on the oedometer test results, hydraulic conductivity was determined using the Casagrande’s method. Results show that the swelling strain of highly compacted GMZ01 Bentonite decreases as the concentration of NaCl solution increases. The compression index C c * increases and then turns to decrease with an increase in the vertical stress or a decrease in the void ratio for different solutions, and the C c * decreases as the concentration of NaCl solution increases. The secondary consolidation coefficient C α increases linearly with the increase of the compression index C c * . Furthermore, a bi-linear relationship between the swelling index C s * and the secondary consolidation coefficient C α can be characterized clearly. The hydraulic conductivity increases as the concentration of NaCl solution increases, however, this increase can be prevented if a high confining stress is applied. 相似文献
5.
软土固结过程中展现出明显的非线性压缩和渗透特性,同时竖井的淤堵效应常导致井阻在固结过程中随深度和时间不断演化,但目前能考虑井阻随时空演化的竖井地基非线性固结解析解还很鲜见。通过引入孔隙比与有效应力及孔隙比与渗透系数间的半对数模型描述了土体的非线性固结特性,建立了能同时考虑井阻随时空变化和涂抹影响的竖井地基非线性固结模型,并采用分离变量法获得了固结模型的解析解。将特定参数下固结解的计算结果与实测数据、已有的竖井地基固结解答进行了对比分析以验证其可靠性。最后,对竖井地基的非线性固结性状开展了大量计算分析。结果表明:竖井渗透系数随深度线性衰减越明显则地基固结速率越慢;外荷载一定时,随着软土压缩指数cc与渗透率指数ck之比的增大,竖井地基固结速度减慢;在cc /ck值不变的情况下,外荷载增加,地基固结速率加快。在涂抹区的3种径向渗透系数变化模式中,抛物线变化模式下的地基固结速度最快,线性变化模式下的地基固结速度次之,恒定模式下的地基固结速度最慢,且这种性状并不因为考虑井阻变化或土体非线性固结特性而发生改变。 相似文献
6.
目前考虑土体非线性压缩及渗透特性的双层地基非线性固结解均假定土体固结系数保持不变,能反映固结系数变化的双层地基非线性固结解还很鲜见。引入经典的e- 和e- 非线性关系描述土体的非线性压缩、渗透特性,在假定双层地基上、下土层压缩指数与渗透指数比值 相等且不等于1的基础上,得到变荷载下考虑土体固结系数变化的双层地基一维非线性固结近似解。该解答在 1条件下可退化为已有的 1时双层地基一维非线性固结解。基于此解探讨了双层地基上、下土层参数的相对比值对非线性固结性状的影响。结果表明:单面排水条件下 越小,下层土与上层土的相对压缩性越低、相对渗透性越高,则双层地基非线性固结速率越快;减小 值,增加双层地基中压缩性小、渗透性高的土层的厚度,会加快地基的固结速率。 相似文献
7.
Youventharan Duraisamy Bujang B. K. Huat Ratnasamy Muniandy 《Geotechnical and Geological Engineering》2009,27(5):619-629
This paper presents the compressibility of fibrous peat reinforced with cylindrical cement columns. The effects of the cement
column diameter on the compressibility have been investigated in this study. The results indicated that compressibility index
C
c
and C
α
decreased with increasing diameter of the cement column. Specimens with 45 mm (area ratio = 0.09) diameter and 60 mm (area
ratio = 0.16) diameter of cement columns were cured for 7, 14 and 28 days, after which they were subjected to Rowe Cell consolidation
test. Results are also presented from tests conducted on groups of cement columns using four (area ratio = 0.04) and nine
(area ratio = 0.09) columns of 15 mm diameter each to investigate the influence of the number of cement columns on compressibility
of peat. Apart from that various proportions of cement were used to form cement columns in order to study the influence. Based
on the results obtained, it shows that cement columns can successfully reduce the compressibility of fibrous peat. 相似文献
8.
假定土体在固结过程中压缩性和渗透性的变化成正比,基于 - 及 - 关系,推导出饱和软土成层地基一维非线性固结解析解,分别给出了按沉降定义和按有效应力定义的每层土平均固结度及整个土层总固结度的计算公式。采用Fortran语言编制了相应的计算程序,将计算得到的结果与已有双层地基一维非线性固结解析解计算结果进行比较,验证该解析解的正确性。利用该程序分析成层地基一维非线性固结性状,分别讨论了初始竖向渗透系数、初始体积压缩系数、荷载值及土层厚度对地基固结性状的影响。分析结果表明:在成层地基一维非线性固结过程中,初始竖向渗透系数对超静孔压的影响较为复杂,对上下层地基固结速率影响不同;初始体积压缩系数增大,超静孔压增大,固结速率变小;所加荷载值越大,超静孔压消散越慢,固结发展越慢;超静孔压消散速率不仅取决于土层厚度,同时取决于各层土渗透性的相对大小。 相似文献
9.
Compression and consolidation anisotropy of some soft soils 总被引:1,自引:1,他引:1
Brendan C. O’Kelly 《Geotechnical and Geological Engineering》2006,24(6):1715-1728
The compression and consolidation anisotropy of 11 soft soils were studied by conducting oedometer tests on sets of duplicate
undisturbed specimens prepared in the vertical and horizontal directions from adjacent sections of carefully sampled borehole
cores. The one-dimensional compression, yield and creep characteristics of the various silts, clays and amorphous peaty material
tested were similar for the vertical and horizontal directions. The exception was the structured, coarse fibrous peaty material
which was strongly cross-anisotropic. Drainage occurred more rapidly in the horizontal direction with horizontal-to-vertical
permeability ratios r
k
of 1.0–1.7. Higher r
k
values were associated with more marked fabrics, namely for clays with fine sand partings, fibrous organic inclusions or
fine root-holes and the laminated silts. The r
k
value was for practical purposes independent of the stress level.
Brendan C. O’Kelly: Formerly Scott Wilson Consulting Engineers, UK 相似文献
10.
采用Barron轴对称固结及大变形固结问题的某些简化与假定,推导建立了砂井地基大变形固结控制方程,利用建立的双层砂井地基大变形固结方程及编制的计算程序,通过引入软土渗透系数、有效应力与孔隙比之间的幂函数关系k =ced与e=a( )b,对瞬时加载下双层砂井地基固结性状进行算例计算。结果表明:(1)双层软土幂函数渗透关系及压缩关系中诸参数对双层砂井地基固结性状有重要影响:随着两层软土幂函数渗透关系中参数c1、c2的增加(渗透性增加)、或幂函数压缩关系中参数a1、a2的增加,各土层水平径向与竖向孔隙比减小更快,沉降发展速率与超静孔压消散速率也相应增加,且沉降发展速率快于孔压消散速率。(2)两层土在分界面处的孔隙比及平均超静孔压均出现明显的突变,将沿深度分布曲线分成形状不同的两段,表现出不同的固结性状。 相似文献
11.
采用简化的k-σ′和mv-σ′分段模型,通过把结构性土一维固结问题转化为上、下层土体厚度不断变化的双层地基一维固结问题,得出了变荷载下结构性土一维固结近似解,并与数值解对比验证了解的合理性。分析结构破坏后渗透系数和体积压缩系数的变化分别对结构性土固结特性的影响表明,在固结系数减小程度相同的情况下,渗透系数减小程度增加则按孔压定义的固结度减小程度加大,而体积压缩系数不断增加则按变形定义的固结度减小程度加大;固结过程中按孔压定义的固结度大于按变形定义的固结度,且随着体积压缩系数增加程度加大,二者的差距加大。 相似文献
12.
The governing equations for one‐dimensional consolidation of layered structured soils under time‐dependent loading are established. Using simplified k‐σ′ and mv‐σ′ models, n‐layered structured soils are transformed into (n + 1) or (n + 2)‐layered soils in which the thickness of upper and lower layers are gradually changing. The approximate solutions for the governing equations are then obtained under two types of boundary conditions, and the computer program is developed. Based on the solutions and computer program, the consolidation behavior of layered structured soils with soft interlayer is studied. It is shown that the permeability and compressibility of the soft interlayer have the greatest influences on the rate of settlement and rate of the dissipation of excess pore water pressure. Copyright © 2015 John Wiley & Sons, Ltd. 相似文献
13.
应用三轴加载煤岩渗流试验装置,对预制贯通裂隙煤样开展循环加卸载轴压渗透率试验,分析循环加卸载轴压作用下预制裂隙煤样渗透率的变化规律及其之间的差异。研究结果表明:预制裂隙煤样渗透率与轴压呈负指数函数关系,渗透率对应力敏感性随加卸载次数增加而降低。加载阶段渗透率差值与卸载阶段渗透率差值随加卸载次数增加而降低,渗透率差值与应力敏感性系数呈正相关性。加载阶段与卸载阶段渗透率存在明显差值,渗透率产生明显损失量,其随加卸载次数增加而降低。竖直裂隙煤样渗透率与应力敏感性系数明显高于水平裂隙煤样与完整煤样,水平裂隙煤样渗透性与完整煤样渗透性相差不大,但水平裂隙煤样应力敏感性系数高于完整煤样。竖直裂隙煤样渗透率差值与渗透率损失量明显高于水平裂隙煤样与完整煤样,水平裂隙煤样渗透率差值高于完整煤样,但两者渗透率损失量相差不大。循环加卸载轴压结束后,完整煤样渗透率损失率最大,水平裂隙煤样渗透率损失率居中,竖直裂隙煤样渗透率损失率最小;竖直裂隙煤样渗透率恢复率最大,水平裂隙煤样渗透率恢复率居中,完整煤样渗透率恢复率最小。 相似文献
14.
南海珊瑚泥是珊瑚群体死后的骨胳、碎屑聚积形成的海洋岩土体钙质软泥,具有特殊的工程性状,研究其在荷载作用下与时间相关的长期非线性变形对吹填岛礁建设和长期稳定分析具有重要意义。对珊瑚泥进行了3组不同加卸载方案的一维固结压缩试验,通过改变加载时间与加卸载循环圈数探究应力历史对其长期变形性质的影响,并针对珊瑚泥在加卸载试验条件下呈现出的瞬时变形、延时衰减与延时稳定变形3阶段规律,采用改进的Burgers模型拟合不同竖向应力作用下的ε-t(应变-时间)曲线,具有较高拟合精度。同时分析模型参数后发现,随着分级加载时间提高,瞬时应变增量及其增长率下降,最终荷载下的延时衰减时间缩短,延时稳定应变速率及最终荷载下的总应变增量减小。同一加卸载循环圈数中,同竖向应力下卸载阶段的瞬时应变增量小于加载阶段。随着加卸载循环圈数的增加,加、卸载各阶段瞬时应变增量均减小且二者相近,延时衰减时间缩短,延时稳定应变速率及最终荷载下的总应变增量减小。研究了分级加载时间与加卸载循环圈数对珊瑚泥长期变形性质的影响,旨在为岛礁建设中的堆载预压方案提供理论依据。 相似文献
15.
Ensemble smoothing of land subsidence measurements for reservoir geomechanical characterization 
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下载免费PDF全文 Domenico Baù Massimiliano Ferronato Giuseppe Gambolati Pietro Teatini Ayman Alzraiee 《国际地质力学数值与分析法杂志》2015,39(2):207-228
Geomechanical models are often used to predict the impact on land surface of fluid withdrawal from deep reservoirs, as well as investigating measures for mitigation. The ability to accurately simulate surface displacements, however, is often impaired by limited information on the geomechanical parameters characterizing the geological formations of interest. In this study, we employ an ensemble smoother, a data assimilation algorithm, to provide improved estimates of reservoir parameters through assimilation of measurements of both horizontal and vertical surface displacement into geomechanical model results. The method leverages the demonstrated potential of remote sensing techniques developed in the last decade to provide accurate displacement data for large areas of the land surface. For evaluation purposes, the methodology is applied to the case of a disk‐shaped reservoir embedded in a homogeneous, isotropic, and linearly elastic half space, subject to a uniform change in fluid pressure. Multiple sources of uncertainty are investigated, including the radius, R, the thickness, h, and the depth, c, of the reservoir; the pore pressure change, Δp; porous medium's vertical uniaxial compressibility, cM, and Poisson's ratio, ν, and the ratio, s, between the compressibilities of the medium during loading and unloading cycles. Results from all simulations show that the ensemble smoother has the capability to effectively reduce the uncertainty associated with those parameters to which the variability and the spatial distribution of land surface displacements are most sensitive, namely, R, c, cM, and s. These analyses demonstrate that the estimation of these parameters values depends on the number of measurements assimilated and the error assigned to the measurement values. Copyright © 2014 John Wiley & Sons, Ltd. 相似文献
16.
Compressibility characteristics of soils 总被引:1,自引:0,他引:1
Compressibility characteristics of soils forms one of the important soil parameters required in design considerations. Compression index, Cc, which is the slope of the linear portion of void ratio, e vs. logaritham of effective pressure p(log p) relationship, is extensively used for settlement determination. The e–log p is most often assumed to be linear at higher pressure range and hence Cc is taken as a constant. Both published experimental results as well as results obtained in this investigation reveal that the e vs. log p could be curved, concave upwards or concave downwards depending upon the soil plasticity characteristics and initial water content. Thus, assuming Cc to be constant may not be valid for many cases. In this paper, an alternate procedure is given to characterise the compressibility of a soil. Experimental results show that the deformation expressed as a percent of thickness of the soil, (strain) vs. effective pressure could be treated as a rectangular hyperbola and the behaviour could be characterised by two parameters, a and b. Characterising the compressibility behaviour with effective pressure by two parameters is better than a single parameter, Cc. 相似文献
17.
Berenice Zapata-Norberto Eric Morales-Casique Graciela S. Herrera 《Hydrogeology Journal》2018,26(3):755-769
Severe land subsidence due to groundwater extraction may occur in multiaquifer systems where highly compressible aquitards are present. The highly compressible nature of the aquitards leads to nonlinear consolidation where the groundwater flow parameters are stress-dependent. The case is further complicated by the heterogeneity of the hydrogeologic and geotechnical properties of the aquitards. The effect of realistic vertical heterogeneity of hydrogeologic and geotechnical parameters on the consolidation of highly compressible aquitards is investigated by means of one-dimensional Monte Carlo numerical simulations where the lower boundary represents the effect of an instant drop in hydraulic head due to groundwater pumping. Two thousand realizations are generated for each of the following parameters: hydraulic conductivity (K), compression index (C c), void ratio (e) and m (an empirical parameter relating hydraulic conductivity and void ratio). The correlation structure, the mean and the variance for each parameter were obtained from a literature review about field studies in the lacustrine sediments of Mexico City. The results indicate that among the parameters considered, random K has the largest effect on the ensemble average behavior of the system when compared to a nonlinear consolidation model with deterministic initial parameters. The deterministic solution underestimates the ensemble average of total settlement when initial K is random. In addition, random K leads to the largest variance (and therefore largest uncertainty) of total settlement, groundwater flux and time to reach steady-state conditions. 相似文献
18.
19.
Gustav Grimstad Mohammad Ali Haji Ashrafi Samson Abate Degago Arnfinn Emdal Steinar Nordal 《Geomechanics and Geoengineering》2016,11(1):86-93
Settlement analysis of field cases is normally studied based on parameters interpreted from laboratory samples influenced by varying degrees of sample disturbance. Such disturbance is more pronounced in natural soft clays and could significantly affect the engineering properties of the soil, e.g. the over consolidation ratio (OCR) and compressibility index (Cc). Hence, it is vital to understand the role of sample quality in relation to soil characterisation for long-term settlement analyses. In this work, this is numerically illustrated by use of a simple creep model along with realistic parameter selection. This work takes its starting point on critical discussion of the work presented by Fatahi et al. (2013) and uses the opportunity to further clarify some important aspects of settlement/creep analyses in light of sample quality and parameter interpretation valid for the corresponding constitutive model. 相似文献
20.
Hydromechanical behaviour of an expansive bentonite/silt mixture in cyclic suction-controlled drying and wetting tests 总被引:1,自引:1,他引:0
To further our knowledge of coupling between the hydraulic cycles and mechanical behaviour of the swelling soils, this paper presents an experimental study on a bentonite/silt mixture using an odometer with suction controlled by the osmotic technique. A loading/unloading cycle was applied to each of the samples at different constant suctions (0, 2, 3 and 8 MPa). Moreover, successive wetting and drying cycles were applied under constant vertical stress at a suction range of 0 to 8 MPa, followed by a loading/unloading cycle at similar suctions (0, 2, 3 and 8 MPa). Finally, the compression curves of the aforementioned suctions with and without the application of suction cycles were compared, so as to analyse the influence of hydraulic cycles on the soil fabric and the mechanical parameters. It is observed that the wetting and drying cycles applied to both the micro- and macrostructure significantly influenced the virgin compression index λ(s), the apparent preconsolidation stress p0(s) and the elastic compression index values κ. However, the hydraulic cycles imposed only on the micro- or macrostructure induce negligible changes in the mechanical parameters of the soil. 相似文献