Comparison of in situ Shear Test and In-Lab Triaxial Shear Test of Compacted Rockfill

The in situ shear test and in-lab triaxial shear test on compacted rockfill of Fuling safety embankment were carried out and their advantages and disadvantages were compared. The discreteness of cohesive force C and internal frictional angle by in situ shear test is much severer than that by in-lab triaxial shear test. The consolidation of in-lab triaxial shear test is bigger than actual consolidation in rockfill engineerings, so the confining pressure should be reduced to a low level in-lab triaxial shear test.

Engineering behaviour of in situ cored deep cement mixed marine deposits subjected to undrained and drained shearing

The deep cement mixing(DCM)is used to improve the capacity and reduce the settlement of the soft ground by forming cemented clay columns.The investigation on the mechanical behaviour of the DCM samples is limited to either laboratory-prepared samples or in-situ samples under unconfined compression.In this study,a series of drained and undrained triaxial shearing tests was performed on the in-situ cored DCM samples with high cement content to assess their mechanical behaviours.It is found that the drainage condition affects significantly the stiffness,peak and residual strengths of the DCM samples,which is mainly due to the state of excess pore water pressure at different strain levels,i.e.being positive before the peak deviatoric stress and negative after the peak deviatoric stress,in the undrained tests.The slope of the failure envelope changes obviously with the confining pressures,being steeper at lower stress levels and flatter at higher stress levels.The strength parameters,effective cohesion and friction angle obtained from lower stress levels(c′0 andφ′0)are 400 kPa and 58°,respectively,which are deemed to be true for design in most DCM applications where the in-situ stress levels are normally at lower values of 50-200 kPa.Additionally,the computed tomography(CT)scanning system was adopted to visualize the internal structures of DCM samples.It is found that the clay pockets existing inside the DCM samples due to uneven mixing affect markedly their stress-strain behaviour,which is one of the main reasons for the high variability of the DCM samples.

Soil-water characteristics and shear strength in constant water content triaxial tests on Yunnan red clay

The shear strength parameters for geotechnical designs are obtained mainly from consolidated drained (CD) or consolidated undrained (CU) triaxial tests. However, during construction, the excess pore-air pressure generally dissipates instantaneously while the excess pore-water pressure dissipates with time. This condition needs to be simulated in a constant water content (CW) triaxial test. The study on Yunnan red clay is carried out to investigate the soil-water characteristics and the shear strength characteristics under the constant water content condition. Osmotic technique is used to obtain the soil-water characteristic curve. A series of CW triaxial tests are conducted on statically compacted specimens. The experimental results show that the soil-water characteristic curve has a low air entry value of 7 kPa due to large pores in non-uniform pore size distribution, and a high residual value exceeding 10 MPa. In addition, the initial degree of saturation and net confining stress play an important role in affecting the shear characteristics under the constant water content condition. Finally, a new semi-empirical shear strength model in terms of degree of saturation is proposed and then applied to Yunnan red clay. Simulation result shows that the model is capable of capturing some key features of soils. The model can be used in whole engineering practice range, covering both unsaturated and saturated soils.

Multistage Triaxial Behavior of Shallow Landslide Hazard Site Soil of Rangamati Sadar Area, Bangladesh

The soil samples were collected from a shallow landslide hazard site of the Rangamati Sadar in Bangladesh to determine the shear strength properties of the soil. Multistage triaxial consolidation undrained test has become worldwide more accepted to determine the shear strength parameters. Multistage triaxial undrained tests were performed on five samples taken from five different depths of boreholes. Samples were evaluated under two natural conditions and three remolded situations. Samples were consolidated before shearing at confining pressures from 50 kPa to 1200 kPa. All the test results are discussed in terms of deviator stress versus axial strain, mean effective stress versus deviator curves, stress ratio versus axial strain, and excess p. w. p. versus axial strain curves. The samples consolidated at low effective stress first displayed peak positive values of excess p. w. p., followed by increased strains due to sample bulging failure, and only a few samples formed a shear surface failure. The strength parameters were estimated using the maximum deviator stress as the failure criterion i.e. the overall value of the cohesion is 20 kPa and the friction angle is 34°. Hence, the critical state line has been constructed and the critical state parameters have been calculated. The critical state stress ratio M was calculated to be 0.036. The shear strength of soil is one of the significant mechanical properties that are thoroughly used to assess the landslide and liquefaction potentiality of the soil.

黄土盾构隧道围岩强度指标结构性参数表征与荷载计算

为了考虑黄土地层特征,获取合理的围岩压力以指导黄土盾构隧道结构设计,通过对比盾构隧道与新奥法隧道围岩压力现场测试数据,结合黄土盾构施工实践,验证形变围岩压力计算黄土盾构隧道围岩荷载的合理性;考虑黄土地层的强度参数,通过芬纳公式构建黄土盾构隧道形变围岩压力的计算方法;采用三轴剪切实验,探究原状黄土的应力应变关系以及应力结构性参数的变化规律,构建应力结构性参数下黄土强度指标的计算方法;结合盾构隧道开挖支护下围岩的应力应变变化规律,建立深埋黄土盾构隧道围岩结构性参数场的计算框架,结合结构性参数修正的黄土强度准则,给出深埋黄土盾构隧道围岩压力的计算方法。研究发现,使用形变压力理论计算黄土盾构隧道围岩荷载具有合理性;原状黄土相比重塑黄土有明显的应力峰值及应变软化现象;黄土应力结构性参数与粘聚力存在较好的拟合关系,与内摩擦角相关性低;当仅考虑地层浸水造成黄土结构性演变引起的围岩压力变化时,当含水率由1%增加到25%,塑性圈半径由4.6 m增加为5 m,围岩压力由587 kPa增加到622 kPa。

含泥量对砂类硫酸盐渍土工程特性的影响分析

为了明确含泥量对砂类硫酸盐渍土的盐胀和力学特性的影响,人工配制了不同细粒土含量的砂类硫酸盐渍土,在1%和3%(质量分数,下同)含盐量单向冻结盐胀试验的基础上,选取了细粒土含量为5%、15%、30%和40%的砂样进行常温、低温三轴剪切试验。研究结果表明:此试验条件下,不同级配砂类硫酸盐渍土的冻结温度为-0.7~-0.1℃,当砂样孔隙溶液浓度在冻结温度之上达到饱和时,降温过程中会首先生成盐结晶;1%含盐量条件下,高细粒土含量(≥30%)砂样的起胀温度在4~9℃之内,而低细粒土含量砂样的起胀温度在0℃附近,3%含盐量砂样的起胀温度为20~23℃;试验含水率和细粒土含量通过影响土体中自由水的含量对盐冻胀产生显著影响。在力学特性方面,随着细粒土掺量的增加,砂类硫酸盐渍土的抗剪强度表现出先增大后减小的趋势,细粒土由增强摩擦转变为颗粒间的“润滑”作用;此外,冻结后砂土转变为承载能力更强的“土-盐-冰骨架结构”,抗剪强度大幅提高,并呈现出明显的脆性破坏特征,由于冻结砂土受相对温度的影响,随着含盐量的增加,破坏应力呈先减小后增大的趋势。

红层泥岩填料的力学特性及本构模型研究

在红层泥岩地区进行道路工程施工时,考虑到材料短缺和成本问题,常常采用就地取材的方式作为路基填料。为了研究红层泥岩填料的适用性,选取甘肃省永登县某工点的风化红层泥岩填料为研究对象,在室内开展一系列三轴CU剪切试验,探究含水率、围压和压实度对应力-应变曲线、峰值(残余)强度、抗剪强度指标的影响,并对不同类型的应力-应变曲线,分别采用相应的模型进行拟合。研究结果表明:含水率、围压和压实度对其物理力学特性具有显著影响;对符合应变软化型规律的曲线,采用沈珠江的双曲线模型拟合的规律一般;对符合应变硬化型规律的曲线,采用Duncan-Chang模型拟合的规律较好。研究结果可以为甘肃省红层泥岩路基的病害处治与维修提供参考依据。

基于超大型三轴仪的堆石料动力特性缩尺效应研究

堆石料的缩尺效应是导致高土石坝变形预测不准的重要因素之一,目前针对堆石料静力缩尺效应的影响已有部分研究,但针对堆石料动力变形特性的缩尺效应研究仍十分鲜见。本文对两河口板岩及古水玄武岩开展了超大型(试样直径800 mm,最大粒径为160 mm)和常规大型三轴(试样直径300 mm,最大粒径为60 mm)动剪切模量和阻尼比试验,研究了平行相似级配条件下最大粒径对最大动剪切模量、动剪切模量比、阻尼比以及沈珠江等效线性模型参数的影响。试验结果表明:①超大型三轴试验的最大动剪切模量大于常规大型三轴试验,随着动剪应变的增大,超大型和常规大型三轴试验的最大动剪切模量差别逐渐减小;②超大型三轴试验的动剪切模量比G_(d)/G_(dmax)小于常规大型三轴试验,即超大型三轴试验的动剪模量比衰减得更快;③超大型三轴试验的阻尼比大于常规大型三轴试验,随着动剪应变的增加,二者的差距逐渐增大;④超大型三轴试验得到的沈珠江等效线性模型参数k_(2)、k_(1)以及λ_(max)分别是常规大型三轴试验的1.14~1.32倍、1.26~1.31倍以及1.31~1.44倍,超大型和常规大型三轴试验得到的模量指数n差别不大。本文研究成果可为同类工程动力响应分析提供更加合理的试验与数值计算依据。

基于摄影测量的三轴土体剪切带演化规律

为实现土样局部变形的定向研究,同时优化土样的变形测量精度,将数字图像测量与三轴试验结合,在不对仪器做大型改造的条件下,运用摄影测量技术改良试验.以桂林地区红黏土为研究对象,试验全程对土样全表面进行受力变形监测,并还原土样的三维重构模型,以此研究其应力应变关系、局部应变特性、剪切带演化规律.研究结果表明:(1)土样表面的剪切带内外区域具有截然不同的变形特征,带外区域变形较为均匀且变形量趋于稳定,而带内区域变形不均匀且变形量不断加剧;(2)根据土样表面不同区域间的局部应变差异,确定了剪切带开始形成、停止扩张及完全贯穿的临界状态,提出了一种判别剪切带发展阶段的方法;(3)根据判别方法,将剪切带的演化过程拆分为压缩变形、表面扩张、延伸贯穿、相对滑移四个阶段,并分析了各个阶段不同的变形规律与破坏机理.经摄影测量技术改良的三轴试验,能够得到更准确的土体局部本构关系和变形特性,为探索土的应变局部化现象提供了一种精确且经济的研究方案.

埋深和水土含量对松散岩堆抗剪强度的影响

针对松散岩堆剪切力弱会引起滑坡、崩塌等严重自然灾害的问题,运用相似理论,以石英砂为基本岩块、黏性土为填充土,配置相似材料,分别控制不同填充土含量和含水率并进行三轴试验,研究不同埋深下填充土的含量和含水率对松散岩堆抗剪强度的影响。结果表明:填充土的含量和含水率是松散岩堆咬合力和内摩擦角的关键影响因素,咬合力受影响程度更大;填土中的水对于松散岩堆的剪切力起着削弱作用;岩堆剪切力随着埋深的增加而增加,不同埋深处岩堆有相同的最佳填充土含量和含水率;在恒定岩堆土重度情况下,抗剪强度和埋深呈线性关系。

雄安新区粉质黏土的动力特性试验研究

为分析雄安新区粉质黏土的动力特性,采用GDS多功能动态循环三轴试验系统,对雄安新区粉质黏土进行14种工况(不同围压、固结比和加载频率)下的动三轴试验,深入分析了动骨干曲线、动弹性模量、动剪切模量、阻尼比等在不同工况下的变化规律及相关参数。试验结果表明:随动应力幅值的增大,动应变呈非线性增长,且存在某一临界动应力值;随动应变的增大,动模量逐渐减小,且减小速率先快后慢、最后趋于稳定;随动剪应变增长,阻尼比呈非线性增长,且阻尼比最大值不超过0.12;随围压与固结比增大,动强度和动模量均明显增大;围压与固结比对阻尼比影响较小,具有归一性特征;随频率增大,动应力幅值、动弹性模量增大,但增长幅度并不明显。综合分析三变量对雄安新区粉质黏土动力特性的影响程度得出:围压影响最大、固结比次之、加载频率最小。

粉煤灰改良红层泥岩填料静三轴试验研究

红层泥岩的吸水软化和体积膨胀特性易造成路基翻浆冒泥现象及路基不均匀沉降等病害,在作为公路路基填料时应对其进行改良。本文选用粉煤灰作为改良剂,通过室内X射线衍射试验、化学成分测试和易溶盐等试验,分析红层泥岩和粉煤灰的成分组成及离子含量;通过无侧限抗压强度试验、室内变水头渗透试验和固结等试验分析了试样改良前后物理力学特性;通过常规三轴UU试验,研究了不同粉煤灰掺量对改良试样剪切应力-应变及抗剪强度的影响;分析了粉煤灰掺量为10%时,养护龄期对改良试验抗剪强度参数的影响。结果表明:该地区红层泥岩属低液限黏土,其易溶盐溶液中的SO42-离子含量最高,pH值呈碱性;三轴剪切试验中,改良和未改良试样均呈塑性破坏,试样粉煤灰掺量和龄期均对试样抗剪强度提高具有促进作用,且黏聚力增长幅度远大于内摩擦角;粉煤灰掺量为10%龄期28 d时,试样黏聚力较未改良未养护试样和10%掺量未养护试样分别提升37.9%和6.9%,内摩擦角分别增大了1.2°和0.7°。试样的静力学试验均验证了粉煤灰改良的可靠性。

间断级配散粒土侵蚀过程及强度演变机理研究

旨在探究相同应力条件下不同密实度间断级配散粒土管涌侵蚀机理及其侵蚀后强度变化特性,制备干密度为1.80,1.84,1.88 g/cm^(3)的3种土体试样,通过管涌三轴试验深入地探讨了干密度对其破坏临界水力梯度、累计涌砂量、体积变化量及侵蚀后强度变化的影响规律。研究表明:试样破坏临界水力梯度随其干密度增大而增大,且利用Terzaghi公式(F1)、毛昶熙公式(F2)及水利水电科学研究院公式(F3)对其渗流临界水力梯度进行分析,发现在该应力环境下各公式计算结果与试验结果均较接近(优劣度为F2>F3>F1)。试样累计涌砂量与体积变化量均与其干密度呈负相关性变化趋势,其涌砂速率随管涌侵蚀不断发展而逐渐衰减;土的强度受干密度与侵蚀率二者影响,表现为侵蚀后土体强度折减程度随侵蚀进行而逐渐增加,随干密度增大而减小。

钙质砂特征形状分析及不排水剪切强度研究

钙质砂的形状是影响其宏观力学性质的重要因素。人工挑选出不同特征形状(块状、片状、条状)的钙质砂,通过显微图像采集与处理技术,定义并构建了一个形状参数(偏离度α),对钙质砂的特征形状进行三维定量描述,配制3种不同形状掺量的钙质砂试样进行三轴固结不排水剪切试验,研究钙质砂的特征形状对其剪切特性的影响。研究结果表明:(1)偏离度α能够较好地对钙质砂的形状进行描述及区分,可作为一种量化钙质砂形状的有效手段;(2)钙质砂的不排水剪切强度与偏离度α有较好的相关性:若增加片状钙质砂的含量(α增加),则试样的不排水剪切强度降低,若增加条状钙质砂的含量(α减小),不排水剪切强度增大。研究成果不但加深了对钙质砂特征形状的理解,还为准确评估钙质砂的抗剪强度提供了新思路。

红石岩堰塞坝新堆积体动三轴试验研究

牛栏江上的红石岩堰塞坝新堆积体以石灰岩和白云岩为主,级配和密度离散性较大。同时,已有研究结果表明,红石岩新堆积体具有黏性粗粒土性质,静力参数具有明显的离散性,需开展其岩土料的动力参数研究,以为将其利用改建为水利枢纽提供基础材料数据。采用GDS动三轴仪,对红石岩新堆积体进行了动剪切模量比与阻尼比试验,研究新堆积体动应力应变特性及其影响因素。试验结果表明:随着剪应变的不断增大,新堆积体动剪切模量比不断减小,阻尼比随之增大。新堆积体动力特性受围压影响较为明显,最大动剪切模量随着围压的增大而增大。在相同剪应变条件下,随着围压、干密度、粗颗粒含量的增大,动剪切模量比逐渐增大,阻尼比逐渐减小。另一方面,新堆积体细粒含量较多,颗粒岩性复杂,风化程度差异明显,导致其动力特性具有一定的离散性,与人工筑坝堆石料存在明显差异。

页岩储层水力裂缝和天然裂缝交互规律

页岩储层的大量天然裂缝会在水力压裂中影响水力裂缝扩展路径,厘清二者交互规律对于明确储层裂缝扩展机制及优化裂缝网络具有指导意义。文中利用真实页岩岩心,在提前预置单一裂缝基础上,模拟水力压裂过程中水力裂缝与天然裂缝的交互行为;采用单一变量法,研究水力裂缝逼近角、注入孔深度、天然裂缝胶结强度、围压对二者交互行为的影响。结果表明:交互状况有水力裂缝打开天然裂缝、沿天然裂缝穿行一定距离后偏转、穿过天然裂缝3种,而打开时最大滑移量和最大滑移速率在所有交互结果中最高,偏转时次之,穿过时最小;相比张性起裂,裂缝剪切起裂下最大滑移速率较小,最大滑移量较大。逼近角大、注入孔深度小、天然裂缝胶结强度大、围压高均有利于水力裂缝均衡扩展;反之,则易沟通天然裂缝形成复杂缝网。该研究成果对改善裂缝网络形态及优化页岩储层压裂设计具有一定的借鉴意义。

不同固结条件下尾矿粉质黏土动力变形特性分析

利用GDS振动三轴试验系统,针对四川省某尾矿库的尾矿粉质黏土料,基于不同固结条件开展振动三轴试验,研究尾矿粉质黏土在分级循环荷载下的变形特性,基于不同固结条件对尾矿粉质黏土各动力变形特性参数的变化情况进行对比分析。结果表明:当固结围压σ_(3)和固结比Kc不断变大时,尾矿粉质黏土的各动力变形参数呈现出明显不同变化趋势,阻尼比λ会持续变小,动弹性模量E_(d)与动剪切模量G_(d)不断增大;在动应变ε_(d)不断增大的过程中,阻尼比λ会相应升高,但动弹性模量E_(d)与动剪切模量G_(d)却显著下降,动弹性模量比E_(d)/E_(dmax)逐渐减小,表明动弹性模量逐渐衰减,且衰减过程呈三段式;固结压力σ_(3)和固结比Kc的增大可以减缓动弹性模量E_(d)的衰减。采用沈珠江动本构模型对试验结果进行拟合,获得相关模型参数。

Shear behavior of coarse aggregates for dam construction under varied stress paths

Coarse aggregates are the major infrastructure materials of concrete-faced rock-fill dams and are consolidated to bear upper and lateral loads. With the increase of dam height, high confining pressure and complex stress states complicate the shear behavfor of coarse aggregates, and thus impede the high dam＇s proper construction, operation and maintenance. An experimental program was conducted to study the shear behavior of dam coarse aggregates using a large-scale triaxial shear apparatus. Through triaxial shear tests, the strain-stress behaviors of aggregates were observed under constant confining pressures： 300 kPa, 600 kPa 900 kPa and 1200 kPa. Shear strengths and aggregate breakage characteristics associated with high pressure shear processes are discussed. Stress path tests were conducted to observe and analyze coarse aggregate response under complex stress states. In triaxial shear tests, it was found that peak deviator stresses increase along with confining pressures, whereas the peak principal stress ratios decrease as confining pressures increase With increasing confining pressures, the dilation decreases and the contraction eventually prevails. Initial strength parameters （Poisson＇s ratio and tangent modulus） show a nonlinear relationship with confining pressures when the pressures are relatively low. Shear strength parameters decrease with increasing confining pressures. The failure envelope lines are convex curves, with clear curvature under low confining pressures. Under moderate confining pressures, dilation is offset by particle breakage. Under high confining pressures, dilation disappears.

饱和黏土不排水抗剪强度特性研究

饱和黏土的不排水抗剪强度(su)是海洋工程地基稳定性验算必备的参数,该参数的准确性对工程安全至关重要。室内等向固结三轴压缩试验(CIUC)是工程中获得su最普遍的方法。随着对海洋土工程特性认识的加深及国际设计方法的引入,su的室内测试方法种类增加,但不同方法测得的su存在差异。针对天津滨海黏土开展不同固结方式、剪切方式以及不同超固结比(OCR)条件下的三轴压缩、三轴拉伸和静单剪(DSS)试验,分析比较了不同试验方法得到的su,并揭示了导致同一种土体su产生差异的原因,建立起不同试验方法测得的su之间的定量关系。在此基础上结合修正剑桥模型提出了可以预测不同试验方法su的计算公式。

酸环境对粉砂质泥岩三轴力学特性影响研究

为研究酸环境对粉砂质泥岩三轴力学特性影响规律,开展不同酸环境影响下粉砂质泥岩试样三轴压缩试验,得到了酸环境作用下粉砂质泥岩试样宏观力学参数及破环形态的变化规律。结果表明:(1)随着溶液pH值减小及浸泡时间增加,粉砂质泥岩三轴峰值强度显著降低,且试样越过峰值应力后强度衰减幅度减小,粉砂质泥岩逐渐由硬脆性破坏向韧性破坏转变;(2)经过酸溶液作用后的粉砂质泥岩试样黏聚力和内摩擦角等抗剪强度参数发生明显衰减;(3)浸泡时间相同时,随着围压增加,试样破坏面主裂隙倾角逐渐减小,裂隙宽度变大,试样的微裂隙增多;(4)在围压与浸泡时间相同时,随着溶液pH值的增加,破坏后的粉砂质泥岩试样完整性逐渐下降。