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1.
饱和正冻土水分迁移及冻胀模型研究 总被引:6,自引:0,他引:6
正冻土在温度梯度大的情况下,冻结锋面快速移动,孔隙水变成冰,造成原位体积膨胀;而通常在天然条件下,温度梯度都不大,水从未冻区向冻结区迁移,在某一个位置引起冰的累积,形成分凝冰。由于此诱发的冻胀要比原位冻胀大很多,因此,建立一个能够模拟土体水分迁移及分凝冰形成过程的冻胀模型尤其重要。基于第2冻胀理论,建立了饱和土体冻胀模型。在模型中,假设冻结缘中单位时间内水分迁移速度为常数,以计算冻结缘内水压力,再根据克拉方程得到冰压力。根据冰压力的大小作为分凝冰形成判据,研究中假设新的分凝冰形成以后,上一层分凝冰停止生长。模型把水分迁移和冻胀速率当作基本的未知量,模拟了与可天然土体冻胀类似的底部无压补水和顶部加压的冻胀情况。通过数值模拟与试验结果进行对比,初步验证模型的可靠性,其研究结果为实际寒区工程的冻胀预测提供参考。 相似文献
2.
Johan P.G. Loch 《Engineering Geology》1981,18(1-4):213-224
Several theories have been employed to describe the mechanism of frost heave and ice lens formation in soils. In the early seventies, the capillary theory, visualizing ice lens growth at the frost front in non-colloidal soils, has been invalidated by experimental evidence. This led to models in which ice lens growth takes place behind the frost front. Experimental confirmation of this concept was presented at several occasions. Simultaneously, numerical simulation of these models was attempted. In some of these, advanced finite-element and finite-difference techniques were employed.In these recent approaches, mass movement for ice lens growth takes place in a zone of frozen soil. This movement is facilitated by the presence of liquid water films between the pore ice and the pore wall. Coupling of heat and moisture movement in this zone is achieved by employing a generalized form of the Clausius-Clapeyron equation.Some qualitative and numerical models now include the effect of overburden load on the heaving process. Different approaches are followed to predict the effect of overburden load on the pressures in pore liquid and pore ice. In this paper various laboratory tests for frost-heave susceptibility, in use or proposed in recent years, are summarized. A major difference among them is, that either a constant frost penetration rate or a step change in surface temperature is applied. In recent publications it is concluded that net rate of heat extraction is the independent variable in the frost-heave process and should be standardized in laboratory tests. 相似文献
3.
粉砂土反复冻胀融沉特性试验研究 总被引:3,自引:0,他引:3
针对深季节冻土区的特殊环境,通过室内试验研究了粉砂土在不同初始含水率、干密度、荷载、冻融次数条件下的反复冻胀、融沉特性。研究结果表明:粉砂土的冻结温度为-1.03 °C;其冻胀融沉变形随冻融次数的增加呈现波浪式起伏变化,并最终趋于稳定状态;经历多次冻融后,干密度较大试样整体表现为膨胀,干密度较小试样整体表现为压密;上部荷载在抑制冻胀的同时加大了试样的整体融沉变形,却降低了每次冻融的冻胀率和融沉系数;存在一个最优初始含水率,该含水率条件下,试样经历多次冻融后的高度不发生变化;由于外界水源的补给,冻融后试样内部含水率均大于初始含水率;干密度和顶端荷载的增大均有效地抑制了外界水源的补给;4次冻融循环后,粉砂土的冻胀率、融沉系数均逐渐趋于稳定。 相似文献
4.
Upper limit of heaving pressure derived by pore-water pressure measurements of partially frozen soil
Experiments were conducted to estimate heaving pressures of saturated soil partially frozen in a closed system. Temperatures at both ends of a specimen were kept constant, i.e., positive at the top and negative at the bottom. When the overburden pressure P was maintained at a constant value, the pore-water pressure Pw, which showed a certain value before freezing, decreased gradually as freezing progressed, finally attaining a specific value, whereafter the specimen ceased taking water into it. The pressure difference between P and Pw, at this stage was defined as the upper limit of heaving pressure σu, which evidently depended on the temperature θc of the cooling end, in accordance with the relation: σu = −11.4 θc (kg/cm2)
It corresponds to the modified Clausius-Clapeyron's formula, which gives the freezingpoint depression of an ice—water system, where the pressure acting on the ice differs from that on the water. This is the same as the value obtained by Radd and Oertle (1973). It is considered, however, that, when θc lowers, the value of θu reaches finally a constant value smaller than the one obtained by the above equation. Denoted by σu max, it was defined as a maximum heaving pressure. The value of σu max depended on soil type. 相似文献
5.
Hao Gao Seyed Ali Ghoreishian Amiri Signe Kjelstrup Gustav Grimstad Benoit Loranger Elena Scibilia 《国际地质力学数值与分析法杂志》2023,47(1):82-105
This paper presents a fully coupled thermo-hydro-mechanical (THM) model which simulates frost heave in fully saturated soils. The model is able to simulate the formation and growth of multiple distinct ice lenses. The basic equations of the system were derived using the continuum theory of mixtures, nonequilibrium thermodynamics, and fracture mechanics, considering skeleton deformation, water flow and heat transport. Central to this model is the coupled transport of mass due to the temperature gradient across the frozen fringe, which acts as the main driving force of the phenomenon. The model is formulated in terms of measurable physical properties and thus no ad hoc parametrization is required. In an ice-lens-free state, the system is solved as a continuum using the finite element method (FEM). It is then locally treated as a discontinuous system upon the formation of ice lens, by enriching the elements carrying the embedded ice lens(es) using the extended finite element method (X-FEM). The accuracy and efficiency of the proposed model has been verified using several laboratory tests on Devon silt samples at different overburden pressures and thermal boundary conditions. Shut-off pressures have been also estimated and compared with the experimental results. 相似文献
6.
X-ray photography has been used to locate the position of a growing ice lens in soil under laboratory conditions in order to establish the temperature of the actively growing face by means of its position in the thermal gradient field. It can be shown that in a general way the phase change temperatures are predictable from the Clapeyron equation. The structure of the ice phase also appears to follow the predictions of the heave rate equation proposed by Penner and Ueda (1978). When heaving occurs at low overburden pressures, there is a tendency for the ice lens to be very discrete and essentially soil free; at higher pressures and under similar thermal gradients it tends to develop in a more diffuse band and over a much wider temperature range. 相似文献
7.
开放系统下土体冻胀引起土工结构变形致使其服役特性面临严峻挑战。基于土体冻胀非线性弹性力学模型, 推导了计算半空间无限体中土单元在自重下冻胀的数学表达式, 建立了水平场地土冻胀模拟方法, 提出了考虑上部压载效应与位移边界变化的场地表面隆起位移及土体应力与应变的计算方法。在此基础上, 利用开放系统下粉质黏土逐级降温冻胀室内试验, 验证了冻胀引起地表隆起变形预测解析方法的可靠性。经验证, 该变形预测解析方法可应用于寒区场地冻胀量的评估, 进而为开放系统下土工结构物变形预测提供科学参考。 相似文献
8.
Frost heave thrust of soil varies with its water content. When the water content of the soil is less than its plastic limit, the horizontal frost heave thrust of soil does not appear. When the water content of the soil is greater than its plastic limit the frost heave thrust increases with increasing water content and when the water content is a little over its liquid limit, it reaches a maximum value.
Also, the horizontal frost heave thrust of soil varies with temperature. It increases as the negative temperature falls, until it reaches a maximum value at about −7°C.
It should be noted that the distribution of the horizontal frost heave thrust along the lateral surface of the structure is not always uniform: its value is greatest at the middle, less at the bottom, and least at the top. The maximum value generally appears at the place where the depth is about 60–80% of the depth of frost penetration.
According to laboratory data and engineering practice, the values of horizontal frost heave thrust vary greatly, but its maximum value is generally about 4.1–4.2 kg/cm2. 相似文献
9.
At present,artificial freezing method has become one of the effective methods for coal mine shaft to pass through water-rich soft rock strata,which can stop the movement of groundwater and limit the deformation of surrounding rock. In order to study the frost heaving characteristics of sandstone under different freezing conditions,frost heaving tests of saturated and dry Cretaceous red sandstone samples under different freezing rates (10 ℃·h-1,5 ℃·h-1,2 ℃·h-1,1 ℃·h-1)and different confining pressures(5 MPa,10 MPa,15 MPa,20 MPa,25 MPa)were carried out by using GCTS(Geotechnical Consulting & Testing Systems)servo-controlled low temperature and high pressure triaxial rock testing system. In this paper,based on the existing theory of physical and mechanical properties of frozen soil,we studied the frost heaving law of sandstone under different freezing conditions and explored the frost heaving mechanism. The result shows that in the process of cooling,the dry rock sample always produce cold shrinkage deformation,while the saturated rock sample first produce cold shrinkage deformation,then produce frost deformation,and finally the deformation tends to be stable. The deformation of saturated rock samples is much larger than that of dry rock samples. The larger the stress level of rock samples at the same temperature is,the smaller the frost deformation is,which shows a linear negative correlation,mainly because the high confining pressure limits the volume expansion of the water phase in the pore inside the rock samples when it becomes ice. The frost deformation of rock samples is mainly affected by confining pressure and water content,while the frost heaving rate is mainly affected by cooling rate. Under this test condition,the higher the cooling rate of sandstone is,the higher the frost heaving rate is,and the relationship between them is approximately linear. For saturated rock samples,the confining pressure reduces the rock frost heaving by limiting the expansion during the phase transformation of ice water,and the temperature affects the rock frost heaving by affecting the freezing rate of pore water and the thermal expansion and cold contraction of rock skeleton. For dry rock samples,the deformation is mainly due to the volume contraction of rock mineral particles caused by thermal expansion and cold contraction effect,and the greater the temperature change,the greater the deformation. Based on the experimental results and theoretical analysis method,a calculation formula of rock frost heaving considering the influence of confining pressure was established. By calculating the frost heave of sandstone samples under different confining pressures,it is found that the calculated values are in good agreement with the experimental results. Moreover,according to the calculation formula of frost heaving,the influence factors of rock frost heaving during freezing can be divided into two categories:internal cause and external cause. The internal cause includes porosity,saturation,volume modulus of ice and rock skeleton,and the external cause includes temperature and confining pressure. For saturated rock,the frost heaving is mainly affected by factors such as confining pressure,temperature and porosity. When the saturation,porosity and freezing rate are low,the rock may only produce shrinkage deformation,because these indicators determine whether the rock produces frost heave or freeze shrinkage. The mechanism of rock frost heaving is very complicated due to the interaction and restriction between the internal and external factors and the dynamic changes of rock micro-structure and mechanical properties during the process of frost heaving. The research results can provide theoretical reference for freezing construction scheme design of deep coal seam mine construction,and also provide a theoretical basis for the study of physical and mechanical properties and engineering application of soft rock in frozen soil area. © 2022 Science Press (China). 相似文献
10.
冻融循环对土的结构以及物理力学性质有着重要影响,其变化与冻融过程中的孔隙水压力变化有密切关系。但土体冻结过程中的孔隙水压力测试一直是冻土土工测试试验的技术难题。针对这一难题,研发了一种适用于冻结土体孔隙水压力测试的探头,并对砂土和粉质黏土在冻融循环过程中的孔隙水压力发展变化进行了实时监测,获得了圆柱试样冻融循环过程中不同深度处的孔隙水压力变化过程。在冻结过程中,粉质黏土形成冻结缘区及可视的分凝冰,而砂土则无冻结缘及分凝冰的形成。冻融循环过程中土体内部的孔隙水压力变化受温度、冻结速率、冻融循环以及土质等因素的影响。孔隙水压力随温度的循环变化而经历周期性变化:冻结过程中,孔隙水压力不断下降,吸力不断增加;融化过程中,孔隙水压力增大。而冻结速率、冻融循环及土质主要对孔隙水压力降的幅值变化产生影响。此外,冻结锋面位置附近孔隙水压力的下降、吸力的增加,正是水分由未冻区向冻结区迁移的主要驱动力。根据以上试验结果及其理论分析发现,所研制的孔隙水压力探头具有一定的实用性。 相似文献
11.
基于数字图像技术的土冻胀试验系统研究 总被引:3,自引:3,他引:0
开展土冻胀过程的研究对于认识土冻胀机理具有重要的意义,以往学者多采用建立模型进行数值分析的方法,但是在试验中却不能对模型预测的冷生构造、冰分凝、水分迁移等实时过程进行验证。通过建立包括实时图像采集系统、图像预处理系统以及图像数字化系统为一体的基于数字图像技术的土冻胀试验系统,对青藏粉土的冻胀发展过程和冰分凝过程进行了研究分析。结果显示:试样冻胀后已冻区纵剖面的冷生构造可以分为微薄层状构造区、薄层状构造区以及最暖端厚层状构造区三个部分,其中薄层状构造区下部的冰透镜体的分凝作用是冻胀的主要贡献部分,最暖端厚层状构造区中冰透镜体的分凝作用导致了试样未冻区的固结,试样中冰透镜体的分凝过程与试样的冻胀过程和试后含水率的结果能够相互验证。建立的试验系统可以对土冻胀过程中包括冷生构造发育、冻胀变形、冰分凝等过程进行实时采集和定量分析,为冻胀模型的建立和验证提供了试验方法和技术支撑。 相似文献
12.
Chemical stabilisation of expansive soils has been quite efficacious in reducing swelling characteristics, namely, swell potential (S%) and swelling pressure (ps). When chemicals such as lime and cement are added to an expansive clay, flocculation and cementation take place. Flocculation, which is an immediate reaction, is instrumental in reducing plasticity and swell potential significantly. It also reduces the time required for equilibrium heave. This paper presents experimental data on lime-blended and cement-blended expansive clay specimens. Free swell index (FSI), heave, rate of heave and swelling pressure were studied. FSI, heave and rate of heave decreased with increasing lime content and cement content in the blends. But, during a 3-day inundation (a period, generally allowed for the sample to attain to equilibrium heave), cementitious products developed and resisted the applied compressive loads stiffly, resulting in high swelling pressures in the case of lime-blended specimens. Swelling pressure could not be determined in the case of cement-blended specimens. Hence, short inundation tests (inundating the specimens only for 15 minutes) were performed. But, even from these tests, swelling pressure could not be determined for cement-blended specimens. This indicated the development of strong cementitious products in them. It was interesting to find that, in both long and short duration, the lime- and cement-blended specimens attained to equilibrium heave in the same time period. FSI decreased from 185% to 63.63% when lime content was increased from 0% to 4%, and from 185% to 110% when cement content was increased from 0% to 20%. Swell potential reduced by 42.5% at 4% lime and by 46.4% at 20% cement. Swelling pressure increased from 210 kPa to 320 kPa when lime content was increased from 0% to 4%. Linear shrinkage of the specimens also decreased with increasing additive content. 相似文献
13.
渠基土在冻融循环作用下的变形和应力变化特征 总被引:1,自引:1,他引:0
受季节性气候变化和昼夜交替的影响,处于寒区的地表浅层土体不可避免地会发生冻融循环作用。冻结过程引起土体的膨胀变形,融化过程引起土体的压缩沉降变形。同时冻融交替变化会诱发渠基土的结构与物理力学性质发生显著改变,从而危害工程设施的服役性。土体所处的应力环境是影响冻融过程中土体变形发展的关键因素。为了研究不同上覆荷载条件下冻融循环过程对寒区渠基土变形与冻胀应力发展特性的影响,开展了一系列冻融循环试验。结果表明:在上覆荷载为10 kPa时,冻融循环会使土体产生膨胀变形;当上覆荷载为50 kPa或100 kPa时,冻融循环会使土体产生非常明显的固结沉降,且上覆荷载越大,沉降量也会越大。随着冻融循环次数的增加,土体在其所处的应力环境下逐渐形成相对稳定的固结结构,单次冻融过程中产生的冻胀量与融化固结量趋于相等,即冻融稳定系数趋于1。在不同上覆荷载条件下固结稳定后,保持试样两端约束的位移不变,发现土体冻融过程中产生的最大竖向冻胀应力随冻融循环次数的增加不断衰减,且冻胀应力的发展与孔隙水压力的变化具有一致性。因此,通过对恒定上覆荷载条件下冻融过程中正冻与正融界面附近孔隙水压力分布的研究,可揭示冻融过程中土体变形发展的内应力机理。 相似文献
14.
15.
为研究冻土/岩内液相吸力和固相冰压在冻结过程中的作用机制,首先根据热力学基本原理,统一了不同边界条件下的理论冰压方程;然后,联立广义Clapeyron方程和Gibbs-Thomson方程,在阐释液相吸力和固相冰压物理意义基础上,给出了弯曲界面液相水的冻结温度方程;最后,将冻结温度方程引入冻结毛细管模型,将液相吸力方程代入达西定律,分别对固相冰压和液相吸力作用机制进行验证。研究表明:(1)平衡状态下的理论冰压仅与温度线性相关,与边界条件无关;(2)液相吸力来源于理论吸力与固相冰压抵消因子之差,为水分迁移统一驱动力,当固相冰压趋近于理论冰压时,液相吸力趋近于0;(3)固相冰压为绝对压力,可抵消液相吸力,而液相吸力为相对吸力,不可抵消固相冰压;(4)孔隙内的总压力仅为固相冰压,在毛细管冻结时,可达到平衡状态下的理论冰压,故遵循冰压法分凝冰形成机制。研究结果揭示了冻土/岩的液相吸力与固相冰压作用机制,对完善现有冻胀理论具有较高的理论价值和科学意义。 相似文献
16.
《Quaternary Science Reviews》2007,26(9-10):1384-1397
To investigate the drainage conditions that might be expected to develop beneath soft-bedded ice sheets, we modeled the subglacial hydrology of the James Lobe of the Laurentide Ice Sheet from Hudson Bay to the Missouri River. Simulations suggest the James Lobe had little effect on regional groundwater flow because the poorly conductive Upper-Cretaceous shale that occupies the upper layer of the bedrock would have functioned as a regional aquitard. This implies that general northward groundwater flow out of the Williston Basin has likely persisted throughout the Quaternary. Moreover, the simulations indicate that the regional aquifer system could not have drained even the minimum amount of basal meltwater that might have been produced from at the glacier bed. Therefore, excess drainage must have occurred by some sort of channelized drainage network at the ice–till interface. Using a regional groundwater model to determine the hydraulic conductivity for an equivalent porous medium in a 1-m thick zone between the ice and underlying sediment, and assuming conduit dimensions from previous theoretical work, we use a theoretical karst aquifer analog as a heuristic approach to estimate the spacing of subglacial conduits that would have been required at the ice–till interface to evacuate the minimum water flux. Results suggest that for conduits assumed to be on the order of a tenth of a meter deep and up to a meter wide, inter-conduit spacing must be on the order of tens–hundreds of meters apart to maintain basal water pressures below the ice overburden pressure while evacuating the hypothesized minimum meltwater flux. 相似文献
17.
Martin Sharp 《Quaternary Research》1985,24(3):268-284
A model for sedimentation by surging glaciers is developed from analysis of the debris load, sedimentary processes, and proglacial stratigraphy observed at the Icelandic surging glacier, Eyjabakkajökull. Three aspects of the behavior of surging glaciers explain the distinctive landformsediment associations which they may produce: (a) sudden loading of proglacial sediments during rapid glacier advances results in the buildup of excess pore pressures, failure, and glacitectonic deformation of the overridden sediments; (b) reactivation of stagnant marginal ice by the downglacier propagation of surges is associated with large longitudinal compressive stresses. These induce intense folding and thrusting during which basal debris-rich ice is elevated into an englacial position in a narrow marginal zone. As the terminal area of the glacier stagnates between surges, debris from this ice is released supraglacially and deposited by meltout and sediment flows; (c) local variations in overburden pressure beneath stagnant, crevassed ice cause subglacial lodgement tills, which are sheared during surges, to flow into open crevasses and form “crevasse-fill” ridges. 相似文献
18.
为了研究冷端温度、土质和补水压力对土体冻胀影响的强弱以及现行评价土体冻胀敏感性的方法在土体有压补水冻结时的适用性,开展了三因素三水平的冻胀正交试验。基于灰色关联度法得到的结果表明,影响土体冻胀率的因素由强到弱依次为补水压力、冷端温度和土质。补水压力、冷端温度与冻胀率的关联度较大,土质与冻胀率的关联度较小。在较高的补水压力作用下,非冻胀敏感性的砂类土产生了明显的冰透镜体,且部分砂类土的冻胀率超过了黏质土的冻胀率。发现仅凭细粒含量评价水压作用下砂类土的冻胀敏感性存在缺陷,应根据土体所处的实际环境进行综合评估。通过讨论冻胀敏感性、融沉敏感性与冻害敏感性之间的关系,提出受水压影响的寒区工程构筑物须通过设置隔水和排水设施以及使用换填法来综合防治冻害的方法,可为相关工程的设计及安全运营提供参考。 相似文献
19.
The pressure path of solid inclusions in minerals: the retention of coesite inclusions during uplift 总被引:4,自引:0,他引:4
An inclusion model allows calculation of the stresses in and around minerals included in other minerals: during changes in pressure and temperature. The equations are applied to illustrate cooling and uplift histories of quarzo-feldspathic rocks from 500°C and various pressures to ambient conditions. Even in the absence of pore-fluid pressure, microfractures may open at external pressures of 200–400 MPa and temperatures of 200–400°C due to differential volume changes of the constituent minerals. Coesite included in garnet cannot have formed during progressive metamorphism from quartz at lithostatic pressures below the coesite stability field because of differential volume changes. Coesite inclusions are captured by their host minerals at ultra-high pressures and they persist to lower pressures because of the large volume increase occurring at the coesite to -quartz transition. The Pi-T path followed by the SiO2 inclusion traces the boundary between the stability fields of coesite and -quartz until radial fractures develop in the host at low external pressure. 相似文献
20.
《Geomechanics and Geoengineering》2013,8(1):3-11
Directional drilling requires the use of drilling mud to stabilize the borehole and return cuttings to the ground surface. High mud pressure can result in mud loss, ground heave, damage to buried infrastructure, and other serious problems as a result of either hydrofracture or blowout of the soil surrounding the borehole. First, past research on two ground failure mechanisms is reviewed. A new approach is introduced to estimate maximum mud pressure using a cavity expansion solution, where the non-unit lateral earth pressure coefficient at rest (K 0) is explicitly considered. Finite-element analyses demonstrate that the new approach provides effective estimates of the extent of the plastic zone around the borehole under different geostatic stress conditions. Control of mud pressures to prevent the zone of shear failure extending more than halfway to the ground surface produces a reserve capacity of 20–30% against blowout. An examination of hydrofracture versus blowout indicates that blowout is the most likely mode of mud loss in normally and lightly overconsolidated clays. Hydrofracture is the expected cause of mud loss in heavily overconsolidated clays when the coefficient of lateral earth pressure exceeds 1.8. 相似文献