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1.
Influence of pore pressure on plastic deformation and strength of limestone under compressive stress
This study is devoted to experimental investigation of effects of pore pressure on plastic deformation and failure of a water-saturated limestone. The experimental study is composed of three different groups of laboratory tests. The basic mechanical behavior of the rock is first characterized by drained triaxial compression tests on water-saturated samples without pore pressure. The results are compared with those obtained in a previous study from triaxial compression tests on saturated samples with a constant pore pressure. In the second group, water injection tests under a confining pressure of 20 MPa and different values of deviatoric stress are realized to study the effect of pore pressure increase. Finally, undrained triaxial compression tests are carried out for investigating the coupling effect of plastic deformation and pore pressure variation. Based on experimental data, the validity of effective stress concept for plastic yielding and failure strength is discussed.
相似文献2.
在三轴条件下,对饱和土(砂土和黏土)进行排水与不排水条件下的冲击试验及冲击后再固结试验,对比研究了不同渗透性土在不同排水条件下的冲击动力响应和冲击后再固结性状。结果表明:饱和黏土不排水冲击时的孔隙水压力随冲击击数增加而升高并逐渐稳定,排水冲击时的孔隙水压力则是先达到峰值然后有所下降;砂土不排水冲击时的冲击能量对孔隙水压力影响最明显;饱和砂土不排水冲击时的轴向应变与冲击击数呈近似线性关系,饱和黏土冲击及饱和砂土排水冲击则呈近二次曲线关系;饱和砂土不排水冲击后再固结阶段的孔隙水压力立即消散为0,同时体变迅速增大到一定值;饱和黏土在冲击后再固结阶段的孔隙水压力在一定时间内逐渐消散完毕,同时体变逐渐增大;饱和黏土排水冲击时,冲击阶段产生的体变占冲击引起总体变的39%~49%,冲击后再固结阶段产生的体变占51%~61%;砂土和黏土的总体变均表现为排水冲击明显大于不排水冲击,改善冲击时的排水条件有利于提高加固效果。 相似文献
3.
For numerical studies of geotechnical structures under earthquake loading, aiming to examine a possible failure due to liquefaction, using a sophisticated constitutive model for the soil is indispensable. Such a model must adequately describe the material response to a cyclic loading under constant volume (undrained) conditions, amongst others the relaxation of effective stress (pore pressure accumulation) or the effective stress loops repeatedly passed through after a sufficiently large number of cycles (cyclic mobility, stress attractors). The soil behaviour under undrained cyclic loading is manifold, depending on the initial conditions (e.g. density, fabric, effective mean pressure, stress ratio) and the load characteristics (e.g. amplitude of the cycles, application of stress or strain cycles). In order to develop, calibrate and verify a constitutive model with focus to undrained cyclic loading, the data from high-quality laboratory tests comprising a variety of initial conditions and load characteristics are necessary. The purpose of these two companion papers was to provide such database collected for a fine sand. The database consists of numerous undrained cyclic triaxial tests with stress or strain cycles applied to samples consolidated isotropically or anisotropically. Monotonic triaxial tests with drained or undrained conditions have also been performed. Furthermore, drained triaxial, oedometric or isotropic compression tests with several un- and reloading cycles are presented. Part I concentrates on the triaxial tests with monotonic loading or stress cycles. All test data presented herein will be available from the homepage of the first author. As an example of the examination of an existing constitutive model, the experimental data are compared to element test simulations using hypoplasticity with intergranular strain. 相似文献
4.
为研究高应力水平条件下岩石卸荷扩容特性及其剪胀角变化规律,开展了若干不同初始围压水平的三轴峰前卸围压试验,同时进行了相应围压水平的常规三轴压缩试验。基于试验成果分析了卸荷应力路径对砂岩扩容的影响效应,总结了卸荷应力路径下剪胀角变化规律,进而提出了基于卸荷应力路径的剪胀角函数,并给出了其数值实现方法,最后通过对三轴峰前卸围压试验的数值模拟,验证了所提出的剪涨角函数的可行性与合理性。研究表明:(1)加载路径时,不同围压水平下峰前扩容体积应变值相差不大,而卸荷应力路径时,随着围压水平的增加,峰前扩容体积应变从最小值3.15×10?3增加到最大值9.65×10?3,卸荷路径下的峰前扩容体积应变约为加载路径的1.1~4.0倍;(2)卸荷应力路径下偏应力峰值对应的体积应变基本为0或接近于0,而加载应力路径下偏应力峰值对应的体积应变均为负值;(3)卸荷应力路径条件下峰前扩容体积应变在总扩容体积应变中所占比例显著大于加载路径;(4)两种应力路径下,剪胀角随塑性剪切应变增加均经历了先增加后减小的过程,并且低围压工况下偏应力峰值对应的剪胀角和最大剪胀角均大于高围压工况;(5)与加载路径相比,卸荷路径下的剪胀角更快达到剪胀角最大值,并且其偏应力峰值对应的剪胀角和最大剪胀角更大;(6)基于砂岩三轴卸荷试验成果,采用线性拟合方法得出了以围压和峰后塑性剪切应变增量为自变量的剪胀角函数,基于该函数与应变软化本构模型的砂岩三轴峰前卸围压试验的数值模拟结果与试验结果吻合较好,表明该函数能较好地描述三轴峰前卸围压条件下砂岩的扩容特性。以上结论可为深部地下工程变形预测、稳定性分析与支护设计提供理论基础。 相似文献
5.
We define a flow liquefaction potential for determining flow liquefaction susceptibility during proportional strain triaxial compression. The flow liquefaction potential is a function of inconsistency between the natural dilative tendency of the soil and the imposed dilatancy during proportional strain triaxial compression. It helps us analyze why given the right conditions, a loose soil that contracts during drained triaxial compression and liquefies under undrained triaxial compression may be stable under proportional strain triaxial compression. Conversely, we also use the flow liquefaction potential to analyze why a dense soil that dilates during drained triaxial compression and is stable under undrained triaxial compression may liquefy under proportional strain triaxial compression. The undrained loose case is a special case of proportional strain triaxial compression under which a soil can liquefy. The central objective of this paper was to investigate the origins of flow liquefaction instability. Hence, we also analyze stress evolution during proportional strain triaxial compression and discuss the mechanics of the test leading up to flow liquefaction instability. We arrive at a necessary precursor for instability, which can serve as a warning sign for flow liquefaction instability, while the soil is still stable. The precursor is not a condition of sufficiency and should also not be confused with the onset of instability itself. The same loading must be applied continuously to induce flow liquefaction instability. The current progress is encouraging and facilitates a deeper understanding of origin of flow liquefaction instabilities. 相似文献
6.
Rock mechanical behaviors and deformation characteristics are associated with stress history and loading path. Unloading conditions occur during the formation of a salt cavity as a result of washing techniques. Such conditions require an improved understanding of the mechanical and deformation behaviors of rock salt. In our study, rock salt dilatancy behaviors under triaxial unloading confining pressure tests were analyzed and compared with those from conventional uniaxial and triaxial compression tests. The volume deformation of rock salt under unloading was more than under triaxial loading, but less than under uniaxial loading (with the same deviatoric stress). Generally, under the same axial compression, the corresponding dilatancy rate decreased as the confining compression increased, and under the same confining compression, the corresponding dilatancy rate increased as the axial compression increased. The dilatancy boundary of the unloading confining pressure test began with unloading. This is different from the dilatancy of the uniaxial and triaxial compression tests. The accelerated dilatancy point boundary stress value was affected by confining and axial compressions. The specimens entered into a creep state after unloading. The associated creep rate depends on the deviatoric stress and confining compression values at the end of the unloading process. Based on unloading theory and the experimental data, we propose a constitutive model of rock salt damage. Our model reflects the dilatancy progression at constant axial stress and reduced lateral confinement. 相似文献
7.
Tests on specimens of reconstituted illitic clay have examined the influence of temperature on the mechanical behaviour of clay soils. The program involved consolidation to effective confining pressures up to 1.5 MPa, heating to 100°C, and tests on normally consolidated and overconsolidated specimens with OCR = 2. The tests included isotropic consolidation, undrained triaxial compression with pore water pressure measurement, drained tests along controlled stress paths to investigate yielding behaviour, and undrained tests which involved heating and measurement of the resulting induced pore water pressures. The large strain strength envelope is independent of temperature. However, peak undrained strengths increase with temperature because smaller pore water pressures are generated during shearing. An important contribution from the study is a series of results for the yielding of illitic clay at three different temperatures. For the first time, there is clear evidence of yield loci decreasing in size with increasing temperature. An associated flow rule can be assumed without serious error. The results contribute to the confirmation of a thermal elastic-plastic soil model developed by the authors from cam clay following the addition of a small number of extra assumptions. Depending on the initial stress state, heating under undrained conditions may produce shear failure. 相似文献
8.
循环围压对饱和软黏土永久变形的影响 总被引:1,自引:0,他引:1
通过对温州典型饱和软黏土进行一系列不同应力路径下的部分排水循环动三轴试验,研究了部分排水条件下循环围压对饱和软黏土变形特性的影响。试验结果表明:部分排水条件下,与常规的围压保持恒定,偏应力单独循环作用下的三轴试验结果相比,循环围压的存在对饱和软黏土的永久体应变和永久轴向应变均产生了的显著的影响。在相同循环应力比和循环次数下,试样的永久体应变和永久轴向应变均随着循环围压幅值的增大而增大,说明常规的恒定围压循环三轴试验会低估高速交通荷载作用下路基土体的沉降。基于试样第10 000圈的永久体应变和永久轴向应变,分别建立了可以量化部分排水条件下循环围压对饱和软黏土永久体应变和永久轴向应变影响的经验公式,并用于预测饱和软黏土在交通荷载这种包含循环偏应力和循环围压耦合作用的复杂应力条件下产生的永久变形。 相似文献
9.
This paper compares the compression and uplift capacity of a strip foundation from numerical coupled analyses using the Modified Cam Clay (MCC) soil model. The focus is on the failure mechanism and pore pressure development in the soil. Triaxial compression and tension tests were first modelled to develop a rigorous understanding of the pore pressure responses; then, the compression and uplift of a strip foundation were modelled. The results show that the balance of excess pore pressures due to the changes in mean total stress and deviatoric stress during the compression and uplift of a strip foundation are different, although the ultimate undrained capacities are identical. Furthermore, the resistance and excess pore pressure responses during uplift differ from those in compression under the K0-consolidated condition because of the elastic unloading. Although the failure mechanisms have identical shape and size between undrained compression and uplift, the pore pressure distribution in the soil is different and affects the load–displacement behaviours under partially drained compression and uplift. 相似文献
10.
长期循环荷载作用下排水条件对饱和软黏土动力特性影响 总被引:1,自引:0,他引:1
由于软黏土渗透系数很小,目前针对饱和软黏土的循环荷载试验绝大多数都是在不排水条件下进行的。但对交通荷载而言,软黏土承受经年累月的长期循环荷载作用,实际的排水条件应该是部分排水的。基于此,通过对温州原状饱和软黏土进行不同循环应力比下的不排水和部分排水大周数(50 000次)循环三轴试验,分析了长期循环荷载作用下排水条件对饱和软黏土动力特性的影响。研究结果表明与不排水条件相比,部分排水条件下软黏土试样的动力特性表现出很大的不同。随着循环次数的增加,部分排水条件下的孔压随先增加后降低,存在一个峰值;经过较大的循环次数后,回弹应变逐渐减小,应力-应变滞回圈逐渐缩短,面积也明显减小。为了准确预测交通荷载作用下的长期沉降,采用部分排水条件进行试验是十分必要的。 相似文献
11.
For numerical studies of geotechnical structures under earthquake loading, aiming to examine a possible failure due to liquefaction, using a sophisticated constitutive model for the soil is indispensable. Such model must adequately describe the material response to a cyclic loading under constant volume (undrained) conditions, amongst others the relaxation of effective stress (pore pressure accumulation) or the effective stress loops repeatedly passed through after a sufficiently large number of cycles (cyclic mobility, stress attractors). The soil behaviour under undrained cyclic loading is manifold, depending on the initial conditions (e.g. density, fabric, effective mean pressure, stress ratio) and the load characteristics (e.g. amplitude of the cycles, application of stress or strain cycles). In order to develop, calibrate and verify a constitutive model with focus to undrained cyclic loading, the data from high-quality laboratory tests comprising a variety of initial conditions and load characteristics are necessary. It is the purpose of these two companion papers to provide such database collected for a fine sand. Part II concentrates on the undrained triaxial tests with strain cycles, where a large range of strain amplitudes has been studied. Furthermore, oedometric and isotropic compression tests as well as drained triaxial tests with un- and reloading cycles are discussed. A combined monotonic and cyclic loading has been also studied in undrained triaxial tests. All test data presented herein will be available from the homepage of the first author. As an example of the examination of an existing constitutive model, the experimental data are compared to element test simulations using hypoplasticity with intergranular strain. 相似文献
12.
利用GDS应力路径三轴试验系统对南阳膨胀土进行3种应力速率下、4种超固结比(OCR)的被动压缩三轴试验及3种超固结比的被动挤伸三轴试验,分析了不同超固结比和应力速率下其应力(孔隙水压力)-应变关系、有效应力路径及变形模量的演化规律,对膨胀土变形模量各向异性特性进行了初步探讨。结果表明,应力速率、超固结比及卸荷路径均对膨胀土力学特性有一定影响。在被动压缩路径和被动挤伸路径下,随着应力速率和超固结比的增加,相同轴向应变时的偏应力值单调增加;不同超固结比和应力速率时膨胀土的孔隙水压力始终为负值,且其降幅总体上随超固结比的增加而增大,但其降幅随应力速率的变化规律与剪切路径有关。在被动压缩路径下,相同应变时不同应力速率下的孔压降幅基本相同;而在被动挤伸路径下,其降幅随应力速率的增加而增大。边坡开挖路径的选择对于边坡变形影响显著,被动挤伸路径下达到设定极限偏应力时的轴向应变明显大于被动压缩路径。膨胀土变形模量E100随着超固结比和应力速率的增加而增加,但各应力速率下变形模量的各向异性特性则随着超固结比的增加而变弱。 相似文献
13.
为揭示中、高龄期城市固体废弃物(MSW)的力学特性,通过向石英砂、高岭土混合物中加入不同质量比的草炭人工配制模型固废试样,开展了三轴固结排水剪切和固结不排水剪切试验研究。试验结果表明,中高龄期模型固废均表现出持续硬化的应力应变特性,固结排水试验中中龄期模型固废的体变略大于高龄期,固结不排水试验中高龄期模型固废的孔压略高于中龄期。采用15%轴向应变对应的剪应力描述其抗剪强度,并根据Skempton有效应力原理,通过对比固结排水试验和固结不排水试验结果,得出了固废的孔隙水压力折减系数和抗剪强度参数,孔隙水压力折减系数随龄期增加而增大,高龄期模型固废得到的黏聚力低于中龄期,高龄期固废得到的内摩擦角则高于中龄期。 相似文献
14.
常剪应力路径下含气砂土的三轴试验 总被引:1,自引:0,他引:1
天然气水合物完全分解时,产生的气体使得能源土孔隙压力急速增加,有效应力减小,进而引起土体液化破坏。此时深海能源土斜坡的应力状态与静力液化失稳过程可简化为含气土在常剪应力排水(或不排水)应力路径下的破坏问题。以此为背景,提出了制备含气砂土试样的改进充气管法,并开展了含气砂土的常剪应力路径三轴试验。22组试验结果表明:同一孔隙比的含气密砂在不同围压与常剪应力下具有相同的失稳线;含气砂土试样失稳时的应力比和体变均随初始相对密实度的增大而增大;含气密砂在常剪应力路径下饱和度对失稳特征影响的规律性在排水与不排水条件下均不明显,但在不排水条件下含气砂土的孔压(或体变)对变形的敏感性降低;含气密砂在常剪应力路径到达失稳点之后,排水条件下是瞬变的液化鼓胀破坏,不排水条件下是渐变的剪切破坏。 相似文献
15.
16.
Key in predicting stability in sands during dynamic events is gaining a fundamental understanding of the physics of its deformation and failure at high pressures. In this paper are reported results of an experimental investigation into the high‐pressure (up to 700 MPa) mechanical response of Quikrete sand. During all triaxial compression tests, the material exhibited hardening up to failure while both compressibility and dilatancy regimes of the volumetric response were observed. Furthermore, the transition from compressibility to dilatancy was found to be highly dependent on confining pressure. By performing triaxial compression tests with several creep stages followed by unloading–reloading cycles, the time influence of the overall response was detected. Using the experimental data, a new model that captures both compressibility and dilatancy has been developed. Comparison between model predictions and data showed that the proposed model describes well the main characteristics of the high‐pressure response of sand. Copyright © 2012 John Wiley & Sons, Ltd. 相似文献
17.
基于大三轴试验的粗粒土剪胀性研究 总被引:1,自引:0,他引:1
采用大三轴剪切仪对3种不同相对密度的双江口心墙坝覆盖层料进行固结排水剪切试验,重点研究粗粒土的剪胀特性,分析粗粒土的剪胀性与围压、相对密度之间的关系,并检验修正剑桥模型的剪胀方程、Rowe剪胀方程对粗粒土的适用性。结果表明,粗粒土在低围压下表现出明显的剪胀趋势,随着围压的增加,逐渐由剪胀向剪缩过渡;随着密度的增大,粗粒土的剪胀性明显增强;相变应力比是粗粒土剪胀强弱的一个重要影响因素,其随密度的增加而增加,随围压的增大则呈线性减小趋势;粗粒土的剪胀性与相对密度、围压关系密切,根据试验数据得出最大剪胀率 与相对密度 、围压 之间的关系式;修正剑桥模型的剪胀方程不能反映粗粒土的剪胀性;Rowe剪胀方程在一定程度上能反映粗粒土的剪胀性,但高围压下在压缩阶段低估了其压缩性,而在剪胀阶段则高估了其剪胀性。 相似文献
18.
土体的力学特性往往因应力状态和应力路径而异。为了探讨垂直加载和等剪路径下饱和土的力学特性,制备饱和重塑黄土试样,通过固结不排水(CU)和常剪应力排水剪(CSD)三轴试验,分别测定并绘制其应力-应变曲线、孔隙水压力变化曲线和应力路径曲线。试验结果表明,饱和重塑黄土在2种路径下有明显不同的变形特点:CU路径下的应力-应变曲线皆呈弱软化型,孔隙水压力先快速上升后逐渐趋于稳定;CSD路径下维持偏应力为一常量,施加孔隙水压力后的很长时间内试样变形很小,当孔隙水压力增大至试验围压的60%~75%时,试样迅速破坏。CSD路径无偏应力峰值,文中根据轴应变随平均有效应力变化曲线定义了等效峰值破坏线。通过对比发现,2种路径下饱和重塑黄土的有效峰值强度指标差异明显,而有效残余强度指标相近,表明有效残余强度指标是重塑黄土内在属性,受应力路径的影响不大。该研究结果可为实际工程选取正确的应力路径试验提供参考。 相似文献
19.
决定饱和岩土材料变形的有效应力 以及孔压系数B的表达式主要有2种不同的形式,为辨析其合理性,分析了不排水条件下,孔压增量和净围压增量作用下固相与骨架的体积压缩系数之间的关系,以及分别由孔压增量和净围压增量作用引起的液相、固相和骨架的体积增量,指出了 和B的两种形式的表达式在推求过程中各自存在的问题,并通过不排水和排水条件下的变形等效关系,建立了新的有效应力 和孔压系数B的表达式。 相似文献
20.
This paper evaluates the performance of a generalized effective stress soil model for predicting the rate independent behaviour of freshly deposited sands, while a companion paper describes model capabilities for clays and silts. Most material parameters can be obtained from standard laboratory data, including hydrostatic or one‐dimensional compression, drained and undrained triaxial shear testing. A compilation of data on compression behaviour allows for estimation of compression parameters when this type of data is not available. Extensive comparisons of model predictions with measured data from undrained triaxial shear tests shows that the model gives excellent predictions of the transition from dilative to contractive shear response as the confining pressure and/or the initial formation void ratio increases. A parametric study of drained response shows that the model describes realistically the variation of peak friction angle and dilation rate as a function of confining pressure and density when compared with an empirical correlation valid for many sands. The proposed formulation predicts a unique critical state locus for both drained and undrained triaxial testing which is non‐linear over the entire range of stresses and is in excellent agreement with recent experimental data. Overall, the model provides excellent predictions of the stress–strain–strength relationships over a wide range of confining pressures and formation densities. Copyright © 2002 John Wiley & Sons, Ltd. 相似文献