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1.
Many soil–structure interaction problems require the knowledge of the shear resistance and behavior between the soil and construction materials. Although sensitive marine clay deposits are widely found in Canada (Leda clay) and many regions in the world (e.g., Scandinavia), and steel is a common construction material for many civil engineering structures, our understanding of the interface shear behavior between sensitive marine clay and steel is still limited. This paper presents the results of an experimental study on the interface shear behavior between Leda clay and steel. In this research, direct shear tests (DSTs) are conducted to investigate the interface shear strength parameters and behavior between Leda clay and steel, and the effect of several factors (e.g., steel surface roughness, properties of the Leda clay) on the interface shear behavior and parameters. All tests have been carried out with a standard DST apparatus at normal loads which range from 250 to 450 kPa. The results show that the Leda clay interface shear behavior can be significantly affected by the steel surface roughness, the Leda clay’s OCR, dry density, and salt content. The results presented in this paper will contribute to a more cost-effective design of geotechnical structures in Leda clay. 相似文献
2.
研究黏性土中桩土界面的抗剪强度及其参数受超孔隙水压力影响的规律,对工程实践具有重要意义。利用自制的大型恒刚度直剪仪,完成了一系列不同界面粗糙度、不同试样含水率和不同剪切速率试验条件下的直剪试验,分析了在不同试验条件下超孔隙水压力变化规律,进而得到考虑超孔隙水压力的桩土界面抗剪强度及其参数的变化规律。研究结果表明:随着界面粗糙度等级提高,桩土界面超孔隙水压力减小,桩土界面抗剪强度、有效黏聚力和有效摩擦系数增加;随着含水率的增加,桩土界面超孔隙水压力增加,桩土界面抗剪强度降低,含水率对桩土界面抗剪强度的影响主要是改变了桩土界面的黏聚力,黏聚力先增大后减小,对摩擦系数的影响较小;特定试验条件下,随着剪切速率的增加,桩土界面超孔隙水压力增加,桩土界面抗剪强度降低,桩土界面黏聚力先增大后又减小,变化幅度不超过2 kPa,对摩擦系数的影响较小。因此,桩土界面抗剪强度及其参数是界面粗糙度、试样含水率和剪切速率变化引起超孔隙水压力变化共同影响的结果,试验结果可供相关工程设计参考。 相似文献
3.
Residual strength of slip zone soils 总被引:2,自引:1,他引:1
Slip zones of ancient landslides are commonly composed of fine-grained soils with amount of coarse-grained particle. Residual strength of slip zone soil is an important parameter for evaluating reactivation potential and understanding progressive failure mechanism. In this study, the residual strength is examined by in situ direct shear tests, improved laboratory reversal shear box test, precut specimen triaxial shear test and ring shear test. Some residual shear behaviors are recognized. Field residual strength is the average operational resistance along the sliding surface not an ideal drained strength, which is less than peak and greater than residual strength measured in laboratory. Stress–displacement curves obtained from in situ shear and laboratory reversal direct shear demonstrate strain-hardening which have no significant peak, but the shear stress is decreased gradually with increasing displacement. Residual friction coefficient depends on the normal stress, and this dependence is relevant to the interaction of rolling and sliding of particles. Residual friction angle is closely related to coarse fraction and dry density, appearing a linear increase with increasing coarse fraction and a form of polynomial function with increasing dry density. The influence of shearing rate on residual strength can be negligible. 相似文献
4.
为研究超长灌注桩桩侧与土体接触界面的剪切力学行为,采用大型界面剪切仪,开展混凝土与粉质黏土、粉细砂土接触界面剪切试验。针对钻孔灌注桩泥浆护壁施工特点及后注浆工艺的应用,在混凝土与粉细砂土界面设置膨润土泥皮或膨润土泥皮与水泥浆,以研究泥皮及存在泥皮时注浆对界面剪切性状的影响。试验结果表明:界面剪切应力随剪切位移增加逐步达到极限值,之后,剪切应力保持基本不变或出现软化现象;土体类型及法向应力大小对界面剪切力学行为具有较大的影响;粉细砂土-混凝土界面摩擦角与土体有效内摩擦角相近,存在泥皮时,界面摩擦角降低达40%,泥皮的润滑作用较大地削弱了界面的剪切性能;存在泥皮情况下,注浆后界面摩擦角较泥皮界面提高近1倍,水泥浆的注入不仅消除了泥皮产生的不利影响,也有利于进一步改善界面剪切性能,提高其抗剪强度;泥皮及注浆对界面剪切应力与剪切位移关系亦有较大的影响;界面剪切作用对土体具有一定的影响范围,并在接触界面附近土体中逐渐形成剪切破坏带,剪切过程中界面呈现出由剪切位移阶段逐步过渡至剪切滑移阶段;此外,在剪切过程中,不同界面类型的土体变形存在较大差异。 相似文献
5.
我国黄土高原地区黄土沉积覆盖于新近系三趾马红土之上,形成具有胶结的异质土界面。为研究黏结强度对黄土–三趾马红土界面抗剪强度与变形特性影响,开展其剪切力学试验研究,探讨界面间黏结强度对界面破坏模式、界面变形与抗剪强度特性影响规律。结果表明:(1) 有无界面黏结导致异质土界面试样破坏模式不同,界面黏结增大了试样沿界面间的滑动阻力,试样剪切破坏更趋于剪断模式,剪断面损伤程度也越高;(2) 异质土界面剪应力–剪应变曲线均呈应变软化型,有无界面黏结导致界面试样剪切变形特征不同,有界面黏结试样剪切破坏位移大,峰值强度后剪应力降低幅值大,试样脆性剪断破坏特征越显著;(3) 剪切过程中异质土界面产生明显的竖向剪胀变形,有界面黏结试样竖向剪切位移小,且其随界面粗糙度、法向应力变化幅值小;(4) 异质土界面抗剪强度呈非线性变化,界面黏结存在显著提升了界面试样抗剪强度。当异质土界面间粗糙度较低时,黏结强度对界面试样抗剪强度提升幅度大;当异质土界面间粗糙度高时,黏结强度对界面试样抗剪强度的提升幅度下降,此时界面抗剪强度主要受控于界面两侧土体抗剪强度。 相似文献
6.
香港大屿山残坡积土的残余强度试验研究 总被引:8,自引:1,他引:7
粘性土的残余强度是边坡稳定性评价、桩基与土的相互作用机理研究及填土边坡设计中的重要参数。本文在综述大量文献的基础上,结合香港大屿山火山岩风化残坡积土的残余强度试验研究,分析了残余强度的测试方法和影响残余强度的因素。研究结果表明,残余强度与有效法向应力间具有明显的非线性关系;与单剪测试结果相比,多级剪测试结果明显偏高。 相似文献
7.
冻结粉质黏土-桩基接触面剪切特性试验研究 总被引:3,自引:3,他引:0
在寒区工程中, 建筑物的冻拔病害和冻土-桩基接触面间的剪切特性密切相关。借助自制的试验模具, 采用压桩法对冻结粉质黏土中埋置的混凝土桩、 钢桩以及木桩进行了不同负温条件下的剪切试验。结果表明: 在负温下随着剪切位移的增加, 剪切力经历线性增长、 骤降的脆性破坏、 维持恒定三阶段。温度越低, 桩与冻土间的冰胶结力越大, 冻结强度越大, 残余强度越大, 破坏允许位移也越大。在-30 ℃时, 木桩与冻土间的冻结强度最大, 混凝土桩与冻土间的冻结强度次之, 钢桩与冻土间的冻结强度最小。混凝土桩、 钢桩对应的冻结强度及残余强度与温度的关系可用线性拟合, 木桩对应的冻结强度及残余强度与温度的关系可用二次多项式拟合, 三种桩的破坏允许位移与温度的关系均呈现线性规律。研究成果可为寒区结构物抗冻拔病害防治提供参考。 相似文献
8.
The shear behavior at the interface between the soil and a structure is investigated at the macroscale and particle‐scale levels using a 3‐dimensional discrete element method (DEM). The macroscopic mechanical properties and microscopic quantities affected by the normalized interface roughness and the loading parameters are analyzed. The macro‐response shows that the shear strength of the interface increases as the normalized roughness of the interface increases, and stress softening and dilatancy of the soil material are observed in the tests that feature rough interfaces. The particle‐scale analysis illustrates that a localized band characterized by intense shear deformation emerges from the contact plane and gradually expands as shearing progresses before stabilizing at the residual stress state. The thickness of the localized band is affected by the normalized roughness of the interface and the normal stress, which ranges between 4 and 5 times that of the median grain diameter. A thicker localized band is formed when the soil has a rough shearing interface. After the localized band appears, the granular material structuralizes into 2 regions: the interface zone and the upper zone. The mechanical behavior in the interface zone is representative of the interface according to the local average stress analysis. Certain microscopic quantities in the interface zone are analyzed, including the coordination number and the material fabric. Shear at the interface creates an anisotropic material fabric and leads to the rotation of the major principal stress. 相似文献
9.
库岸深层老滑坡在季节性降雨和周期性库水位变动联合作用下往往表现出间歇性复活特征。在这一复活过程中,滑动期与间歇期交替出现,滑带土经历不同速率的剪切和不同时长的固结。从滑动期内残余强度的剪切速率效应、间歇期内峰值抗剪强度的恢复特征以及间歇期过渡到滑动期的孔隙水压力触发过程3个方面着手,建立了描述库岸深层老滑坡间歇性复活的动力学方程。塘角村1号滑坡滑带土试样的环剪试验结果显示:残余强度在较小速率范围内表现出负速率效应,而当剪切速率达到一定值后残余强度不再减小,且有微弱增长趋势;峰值强度在短时间内有较明显的恢复,但在较小位移后衰减至残余强度;孔隙水压力触发剪切破坏的发生滞后于所施加的水压力,这一滞后过程为孔隙水压力的扩散过程。基于试验成果,根据所建立的动力学方程,对库岸深层老滑坡间歇性复活的动力学机制进行了讨论,从而为此类滑坡的预测和防灾减灾提供有价值的参考。 相似文献
10.
If the free vertical movement of the upper rigid part of the shear box is hindered during shearing, a frictional force is mobilized between the specimen and the vertical walls of the shear box. This causes either unloading (for contractant soils) or additional loading (for dilatant soils) of the specimen during shearing. If no correction of the applied vertical load with respect to the wall friction is taken into account, the resulting shear strength can be either underestimated (for contractant soils) or overestimated (for dilatant soils). For example, in a particular investigation of a normally consolidated soil, the measured friction angle from a direct shear test was almost 8° smaller than the angle from a triaxial test. This paper, therefore, presents a method for direct measurement of the frictional force at the contact between the vertical walls of the box and a fine-grained soil. If the wall friction is taken into account, the friction angle from the shear box coincides well with the angle from triaxial tests. If the wall friction cannot be measured during the test, a sufficiently large vertical gap should be adjusted in case of soft soils, in order to enable non-restrained settlement of the upper part of the box during specimen contraction. 相似文献
11.
在土石坝工程中越来越重视岸坡与坝料之间的接触特性,将土体本构模型中使用较多的双曲线型硬化规律运用至接触面模型,提出了一个简洁的接触面本构模型,推导了接触面模型刚度矩阵表达式。通过对4组试验的预测结果与试验结果的对比,表明该模型可以较好地预测粗粒料的界面剪切试验。将提出的接触面模型嵌入有限元程序,应用于如美心墙坝河谷与坝料的接触分析。三维有限元计算结果表明:坝体两侧岸坡的剪切位移变化规律都是中间部分剪切滑移量较大,岸坡边缘部分相对较小,陡坡一侧最大滑移量大于较缓一侧。这些均符合粗粒料滑移的基本规律,可为岸坡?坝料接触特性研究以及土石坝工程计算提供参考。 相似文献
12.
土工格栅与土界面作用特性试验研究 总被引:9,自引:4,他引:5
土工格栅与土的界面摩擦特性指标是加筋土工程设计的关键。通过分析土工格栅与土的界面摩擦作用和进行了直剪摩擦试验和拉拔摩擦试验,测试了两种试验条件的界面摩擦特性。在两种试验条件下,土工格栅加筋土复合体的抗剪强度均有界面摩擦角φsq和界面凝聚力csq,且土工格栅与土相对位移量的不同,其复合体的强度机理有区别。在拉拔摩擦试验中,剪应力峰值强度对应的剪切变形值高于直剪摩擦试验中剪应力峰值强度的剪切变形值5~10倍以上。两种试验均有其适用性,而土与土工格栅的相对位移较小时直剪摩擦试验较能反映实际;土与土工格栅相对位移较大时土与格栅双面均发生相对位移,拉拔摩擦试验更为合适。随法向应力的增大,直剪摩擦和拉拔摩擦试验的剪应力峰值以及剪应力峰值对应的位移均提高。直剪摩擦的剪切速度小,剪应力峰值强度高,且达到峰值强度的剪切位移大;增加剪切速度,剪应力峰值强度降低,且对应的位移也减少,其原因是界面上的孔隙水压力消散和筋材的应力松弛。应根据具体工程的需要选择直剪摩擦试验和拉拔摩擦试验确定设计参数。 相似文献
13.
为探究冻土与结构接触面次峰值冻结强度影响因素、影响规律及其预估方法,选取南京河西地铁施工区域典型粉细砂为试验土样,利用改进后的大型多功能冻土直剪仪,开展多影响因素条件下的冻结强度直剪试验研究。在对次峰值冻结强度定义和量化标准约定的基础上,研究发现极限峰值后剪应力陡降、峰后剪应力周期性变化、软化衰变等典型变化规律。将次峰值冻结强度与接触面温度、粗糙度、法向应力拟合后发现其分别呈反比例线性、二次抛物线、正比例线性关系。通过关系数据库管理软件数据挖掘,得出次峰值冻结强度关键影响因素及大小依次为接触面法向应力、粗糙度,而接触面温度为非关键影响因素。经多元非线性回归,构建了耦合接触面温度、法向应力及粗糙度三因素的次峰值冻结强度预估模型,可为人工冻土区或天然冻土区冻结加固设计、盾构法施工、地下结构物设计等提供冻结强度参数选取依据。 相似文献
14.
基于冻融交界面直剪试验的冻土斜坡失稳过程研究 总被引:1,自引:0,他引:1
为了探讨多年冻土区自然斜坡失稳机制,开展了不同含水率黏土、粉土、砂土的土-冰交界面直接剪切试验和相应融土的直接剪切试验。结果表明,砂土和砂土-冰冻融交界面剪切应力-变形特性主要表现为弹性变形,且剪应力存在明显峰值;粉土、黏土及相应的冻融交界面在很小的变形范围内表现为塑性变形,且剪应力无峰值。水分对砂土活动层抗剪强度影响较弱,表现为水分增高,内摩擦角小幅降低。水分对粉黏土活动层抗剪强度影响剧烈,表现为水分增高,粉黏土黏聚力急剧减小。研究发现,冻土区斜坡失稳更易发生于细颗粒粉黏土中。相对于粉土,粉土-冰冻融交界面抵抗剪切变形的能力更强,粉土斜坡潜在滑动面更易发育在冻融交界面上层附近;相对于黏土,黏土-冰冻融交界面抵抗剪切变形的能力更弱,黏土斜坡更易在冻融交界面处发生滑动。同时,细粒土斜坡极易在达到最大融化深度前提前失稳,斜坡坡度越高,失稳时间越提前。融化期活动层水分增多导致潜在滑动面黏聚力降低是细粒土冻土斜坡失稳的最主要原因,孔隙水压对冻土斜坡具有一定影响,在稳定性评价时要考虑活动层水位的影响。 相似文献
15.
《Engineering Geology》2002,63(1-2):169-185
Heavy rainfall from 26 to 31 August 1998 triggered many landslides in Nishigo Village of southern Fukushima Prefecture, Japan. The Hiegaesi landslide, a long-runout landslide with travel angle of 11°, which occurred in loamy volcanic-ash/pumice layer and was deposited in a nearby rice paddy, was investigated. In an observation pit dug in the middle part of the landslide deposit, the sliding zone just above the deflected rice plants was observed, and it was confirmed that grain crushing occurred in the sliding zone. The triggering and sliding mechanisms of this landslide then were investigated by ring-shear tests in laboratory. For the triggering mechanism, one saturated naturally drained test (test A: torque-controlled test) and one saturated undrained test (test B: speed-controlled test) were conducted on the samples taken from the source area of the landslide. Even in the naturally drained test opening the upper drain valve of the shear box, a temporary liquefaction occurred. In the undrained test, excess pore-pressure was generated along with shearing, and “sliding-surface liquefaction” phenomenon was observed. The effective stress and shear resistance finally decreased to near zero. These results can explain the observed phenomenon of small friction resistance like a flow of liquid when the sliding mass slid out of the source area. For the sliding mechanism of the landslide in the rice paddy, saturated undrained test (test C: speed-controlled test) was performed on soil sample above the deflected rice plants. The apparent friction angle obtained in this test was 8°. In addition, the residual friction angle measured after test B and test C was the same value of 41°. Combining with the observation on the shear zone in the ring-shear box after test C, it is concluded that, during the sliding in rice paddy, the undrained shear strength of the soil layer itself mainly influenced the high mobility of the landslide, probably because the friction between rice plants and soils is greater than the undrained shear strength inside the soil mass. 相似文献
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17.
This paper presents a review of recent developments made by the authors into the modelling of rock joints in direct shear. Careful observation of laboratory direct shear testing on concrete/rock joints containing two-dimensional roughness has allowed theoretical models of behaviour to be developed. The processes modelled include asperity sliding, asperity shearing, post-peak behaviour, asperity deformation and distribution of stresses on the joint interface. Model predictions compare extremely well with laboratory test results. These models were then applied to direct shear tests on rock/rock joints, and although behaviour in general was well predicted, the strength of rock/rock joints was over-predicted. Direct shear tests have also been carried out on samples containing both two- and three-dimensional roughness to test the accuracy of the two-dimensional approximation to roughness adopted in the theoretical models. 相似文献
18.
钙质砂与钢板接触面力学特性试验研究 总被引:3,自引:0,他引:3
对一种人工制备的钙质砂与光滑铜板接触面进行了一系列的单调和循环剪切试验,表明钙质砂与光滑钢板的接触属于摩擦接触,界面剪应力与正应力之比与剪切位移关系有较好的归一性。等正应力试验中钙质砂的的缩性较大;等体积试验中接触面的抗剪强度因正应力的降低而远低于等正应力试验;循环剪切中加荷与卸荷曲线基本重合,经历循环剪切作用后接触面的抗剪强度有降低的趋势。界面湿摩擦系数低于干摩擦系数。 相似文献
19.
ABSTRACT Soil-pile interface friction is an important geotechnical engineering factor to be considered in achieving a safe and cost-effective design. Conventional materials such as concrete, steel, and wood exhibit serious long-term soil substructure problems, particularly with regard to durability, deterioration, and corrosion. Fiber-reinforced polymer (FRP) composites are potential alternatives for addressing these long-term problems. This paper describes the results of an experimental study of the interface friction between sandy soil and glass FRP (GFRP) sheets coated with different ratios of sand per unit of surface area. A direct shear test was used to study 18 different groups of GFRP specimens. The test parameters were the amount of silica sand coating and normal stresses in the direct shear tests. The GFRP specimens were sheared against three types of soil: sand, silty sand, and sandy lean-clay, of which the first two were used in both dense and loose states. The experimental results showed that coating the GFRP sheets with silica sand was effective in enhancing the interface friction with sandy soils under different normal stresses. A pile implication analysis was also performed to compare the effect of sand coated GFRPs on the load capacity of friction piles with different length to diameter ratios. 相似文献
20.
青藏冻结粉土与混凝土基础接触面本构关系研究 总被引:1,自引:0,他引:1
土冻结过程中,冰胶结作用使周围土体颗粒与建(构)筑物基础联成一体,这种胶结力称为土与基础间的冻结强度,通常采用冻土沿物体(例如基础材料)表面的剪切强度来度量。因而,冻土与基础接触面的应力-应变关系及其强度特征是确定冻土区基础工程承载力、抗拔性能和分析构筑物与冻土相互作用的基础和关键。为了更好地服务于工程实际,通过大量的冻结粉土与混凝土基础接触面剪切试验,总结了冻土接触面的基本力学特征和受力变形规律。根据获取的剪应力-位移曲线和冻结粉土接触面强度变化规律,利用标准本构模型建模方法,建立了冻结粉土接触面应力-位移-温度本构方程。该模型可以较好地描述不同温度冻结粉土接触面应力-位移变化规律,并为冻土区构筑物受力和变形数值计算提供基础。 相似文献