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1.
通过在多层软粘土地基中静力压入单桩的室内模型试验,对模型桩在整个沉桩过程中压桩力、桩动端阻力及桩动侧阻力随桩贯入深度的变化情况进行了研究,获得了桩在贯入不同土层分界面时阻力的变化规律以及桩周土体应力的分布特征。并对开口管桩和闭口管桩贯入试验情况进行了比较分析,揭示了不同桩端形式桩在贯入过程中桩动侧摩阻力的发展规律,以及分层土体中开口管桩贯入过程中土塞的变化情况。试验结果表明:在粘性土中沉桩时,压桩阻力主要来自桩端向下穿越土体产生的端阻力,而侧摩阻力较小;由于桩侧水平应力的释放使得同一深度点上的动摩阻力随着桩的下沉表现出不同程度的降低,出现摩擦疲劳。 相似文献
2.
为探讨在粉土及粉质黏土中桩端阻力随贯入深度的变化规律,通过在试验桩P1的桩端安装轮辐压力传感器,以及在试验桩P1、P2距桩端200 mm处安装光纤光栅(FBG)传感器,采用两种不同的测试技术全程监测了两根闭口预应力高强度混凝土(PHC)管桩现场贯入过程中的桩端阻力。试验结果表明:桩端阻力与土层的变化密切相关,土层越硬,桩端阻力越大,当桩端从粉质黏土层进入粉土层时,桩端阻力明显增大,粉土中的桩端阻力达到粉质黏土层的2倍;整个贯入过程中,同一土层不同位置的差异性对桩端阻力也存在较大影响,在距离地面1.50 m处,P1和P2桩FBG传感器桩端阻力的差值达到了89.29 kN,而在距离地面3.50~4.50 m处,两桩的桩端阻力则相差较小。 相似文献
3.
This paper presents the results from a pile load testing program for a bridge construction project in Louisiana. The testing includes two 54-in. open-ended spun cast concrete cylinder piles, one 30-in. open-ended steel pile and two (30- and 16-in.) square prestressed concrete (PSC) piles driven at two locations with very similar soil conditions. Both cone penetration tests (CPTs) and soil borings/laboratory testing were used to characterize the subsurface soil conditions. All the test piles were instrumented with vibrating wire strain gauges to measure the load distribution along the length of the test piles and measure the skin friction and end-bearing capacity, separately. Dynamic load tests were performed on all test piles at different times after pile installations to quantify the amount of setup with time. Static load tests were also performed on the PSC and open-ended steel piles. Due to expected large pile capacities, the statnamic test method was used on the two open-ended cylinder piles. The pile capacities of these piles were evaluated using various CPT methods (such as Schmertmann, De Ruiter and Beringen, LCPC, Lehane et al. methods). The result showed that all the methods can estimate the skin friction with good accuracy, but not the end-bearing capacity. The normalized cumulative blow counts during pile installation showed that the blow count was always higher for the PSC piles compared to the large-diameter open-ended cylinder pile, regardless of pile size and hammer size. Setup was observed for all the piles, which was mainly attributed to increase in skin frictions. The setup parameters “ A” were back-calculated for all the test piles and the values were between 0.31 and 0.41. 相似文献
4.
为了揭示黏性土中静压桩贯入过程中桩土界面桩侧土压力的受力特性,依托山东东营某桩工程开展了现场足尺试验,得到了静压桩沉桩过程中桩土界面桩侧土压力随贯入深度的变化规律,分析了贯入过程中不同土层桩侧土压力的分布特性,明确了桩侧土压力在沉桩过程中存在明显的退化效应,探讨了桩土界面桩侧土压力与桩侧上覆土体竖向土压力的比值关系。结果表明:桩土界面桩侧土压力与土层性质密切相关;随着传感器贯入深度的逐渐增加,桩侧土压力逐渐增大,并且增大幅度随土层的不同而不同;在同一贯入深度处,桩土界面桩侧土压力存在明显的退化现象,粉土中的退化幅度明显小于粉质黏土中的退化幅度;同一土层中桩土界面桩侧土压力与桩侧上覆土体竖向土压力的比值为常数,并且粉土中的比值明显大于粉质黏土中的比值。 相似文献
5.
Slow-maintained static load tests were performed on closed-ended and open-ended steel pipe piles driven side by side in a gravelly sand soil profile. The site investigation consisted of multiple cone penetration tests (CPTs) and standard penetration tests (SPTs), as well as laboratory tests on soil samples collected at various depths from the test site to determine basic soil properties. The test piles were densely instrumented with a combination of electrical-resistance and vibrating-wire strain gauges. The open-ended test pile was a specially fabricated double-wall, fully-instrumented pile, allowing for separation of the measurements of the inner and outer shaft resistances. Detailed comparison of the load test results, in terms of driving resistance, load response and profiles of unit shaft and base resistances for the two test piles, is presented and discussed. The applicability of three CPT-based pile design methods is assessed through a layer-by-layer comparison of the estimated resistances with those measured in the static load tests. 相似文献
6.
The rigid pile composite foundation is widely used in highway projects in soft soil area as it can effectively increase the bearing capacity and stability of the foundation. While the research on the behavior and failure mode of rigid pile composite foundation under embankment is not enough, instability failure of rigid pile composite foundation often occurs in practical projects. This paper presents a centrifuge model test to investigate the load transfer mechanism, settlement characteristic and failure mode of rigid pile composite foundation under embankment. The test results show that: the soil displacement of different region in rigid pile composite foundation was different, obvious vertical displacement occurred in the soil under the center of embankment and the horizontal displacement was very small in this region; both vertical and horizontal displacement occurred in the soil under the shoulder of embankment; and obvious horizontal displacement occurred in the soil under the slope toe of embankment; moreover, ground heave also occurred near the slope toe of embankment. The soil displacement in rigid pile composite foundation had a large influence on the stress characteristic and failure mode of rigid piles, the compressive failure and bending failure would probably occur for the piles under the center and shoulder of the embankment, respectively, and the tension-bending failure would probably occur for the piles under the slope toe of embankment. The different failure modes of piles at different regions should be considered in the design of rigid pile composite foundation under embankment. The test results can be used to improve the design method for rigid pile composite foundation under embankment in practical projects. 相似文献
7.
针对实际工程中成层土情况中静压桩存在的问题,在ANSYS平台上,应用位移贯入法对静力压桩的连续贯入的全过程进行有限元模拟,详细对比了在均质土和成层土中静力压桩产生的位移场和应力场。指出软硬土层交界处土体位移加 大,土中挤压应力剧变,出现应力间断。实际工程中,挤压应力间断使已压入桩的侧向受力剧变,导致桩体易开裂、弯折。这里提出相应的解决方法。 相似文献
8.
任意拉格朗日-欧拉(ALE)方法吸取了拉格朗日和欧拉法的优点,避免了常规有限元中拉格朗日方法的网格畸变问题,适用于开口管桩高频振动贯入过程的计算分析。采用ALE有限元方法,建立开口管桩高频振动贯入过程的数值模型,对沉桩过程中挤土效应、桩侧阻力和土塞效应的变化规律进行了详细研究。研究结果表明:挤土应力主要沿径向传播,且深层土体受到的挤土应力比浅层土体大;水平挤土位移随管桩贯入深度的增加而增大,而最大水平挤土位移与管桩贯入深度存在累积效应;挤土效应的影响范围约为10倍管径,因此在施工过程中要给以足够重视;桩外侧摩阻力随贯入深度增加呈近似线性增长,桩内侧摩阻力随贯入深度增加而呈非线性增长,增长速率随贯入深度增加而逐渐增大;管内土塞处于不完全闭塞状态,土塞程度由完全非闭塞向部分闭塞过渡。此外,研究了土体模量、桩土界面摩擦系数、振动频率和桩径对土体位移的影响。 相似文献
9.
当开口管桩打入土层中,土体进入桩内形成土塞,土塞效应对桩的打入特性和承载能力具有重要影响。基于上海典型软土地基中长PHC桩的现场试验,统计分析3个不同场地共44根桩打桩过程中的土塞数据,探讨软土地基中PHC桩打桩过程中土塞长度与内径之比、土塞增量与桩打入深度增量之比(IFR)随打入桩长与内径之比变化的规律,并线性拟合出土塞增量与桩打入深度增量之比与土塞高度和桩打入深度之比(PLR)的经验公式。研究表明,大部分PHC桩在打桩过程中,土塞部分闭塞,桩从浅部较硬土层打入较软土层,IFR值减小,土塞闭塞作用大;桩从较软土层打入深部较硬土层,IFR值逐渐增大,土塞闭塞作用小,且土塞长度增量与桩打入深度增量之比与土塞长度与桩打入深度之比基本呈线性关系。 相似文献
10.
珊瑚地层是钙质砂和礁灰岩的统称。在珊瑚地层中开展预应力高强度混凝土管桩(PHC桩)的原位堆载测试,分析了桩?珊瑚地质的相互作用规律。采用光纤光栅传感技术采集加载过程中的试桩桩身应变,由计算获取桩身轴力,分析加载过程中珊瑚地层中PHC桩基础的承载特性。试验结果表明,(1)桩?土响应处于线弹性阶段;(2)桩的承载发挥状态与入土深度显著相关,且入土深度超过15倍桩径时桩端阻力发挥峰值;(3)桩的安装方式几乎不影响其在珊瑚地层中的承载性能,但贯入能量的大小则显著影响;(4)入土深度和贯入能量的大小,影响珊瑚地质的破碎程度,颗粒破碎显著影响珊瑚地质中桩的承载发挥特性。通过原位测试可知在珊瑚地质中在贯入深度在15倍桩径以内,入土深度与桩端阻力正相关,与桩侧摩阻力反相关。 相似文献
11.
Soil plugging in open-ended piles leads to an increase in compressive bearing capacity but also influences pile driving resistance. Many different factors affect the tendency for soil plugging, for example, pile diameter, penetration depth and installation method. In this paper, the influence of the installation method on soil plugging is investigated. In situ measurements during the installation of two instrumented tubular piles are carried out to investigate the internal and external stresses acting on the pile during the installation process. Furthermore, the cone penetration resistance inside one pile is measured during the installation, and the accelerations and strains at the pile head are monitored to predict the bearing capacity. The installation method is varied between vibratory and impact pile driving. The results show that a significant increase in horizontal stresses inside the pile occurs during impact driving which leads to the conclusion that a soil plug is formed. During vibratory pile driving, no stress increase was observed. 相似文献
12.
A finite element model for pile‐driving analysis is developed and used to investigate the behaviour of pre‐bored piles, which are then driven the last 1.25 or 2.25 m to their final design depth. The study was conducted for the case of saturated clays. The model traces the penetration of the pile into the soil and accommodates for large deformations. The non‐linear behaviour of the clay in this study is predicted using the bounding‐surface‐plasticity model, as applied to isotropic cohesive soils. The details of the 3‐D numerical modelling and computational schemes are presented. A significant difference was observed in the pile displacement during driving, and in the computed soil resistance at the pile tip, particularly at the earliest driving stages. No difference in soil resistance at the soil pile interface along the pile shaft was detected between the pre‐bored piles whether driven 1.25 or 2.25 m. Copyright © 2002 John Wiley & Sons, Ltd. 相似文献
13.
Energy piles make use of constant and moderate ground temperature for efficient thermal control of buildings. However, this use introduces new engineering challenges because the changes of temperature in the foundation pile and ground induce additional deformations and forces in the foundation element and coupled thermo-hydro-mechanical phenomena in the soil. Several published full-scale tests investigated this aspect of energy piles and showed thermally induced deformation and forces in the foundation element. In parallel, significant progress has been made in the understanding of thermal properties of soils and on the effect of cyclic thermal load on ground and foundation behavior. However, the effect of temperature on the creep rate of energy piles has received practically no attention in the past. This paper reports the experimental results of an in situ tension thermo-mechanical test on an energy pile performed in a very stiff high plasticity clay. During the in situ test, the pile was subjected to thermal loading by circulating hot water in fitted pipes, simulating a thermal load in a cooling-dominated climate, at different levels of mechanical loading. The axial strain and temperature in the pile, and the load–displacement of the pile were monitored during the tension test at different locations along the center of the pile and at the pile head, respectively. The data showed that as the temperature increases, the observed creep rate of the energy pile in this high plasticity clay also increases, which will lead to additional time-dependent displacement of the foundation over the life time of the structure. It was also found that the use of geothermal piles causes practically insignificant thermally induced deformation and loads in the pile itself. 相似文献
14.
针对大型炼厂工程地基处理的复杂性,开展了振冲碎石桩的现场试验。利用静力触探试验检测桩体密实度和判别饱和砂土液化。基于旁压试验、标准贯入试验和重型动力触探试验结果,分析了施工前后地基承载力和土体工程特性变化情况。以单桩和复合地基载荷试验结果验证了桩间土、单桩及复合地基的承载性能。研究结果表明,振冲碎石桩对桩长范围的砂土具有明显的挤密效应,工程特性和场地的均匀性在处理后有了明显改善和提高,有效地消除了桩长范围内砂土的液化可能性。静载荷试验结果表明,振冲碎石桩复合地基承载力能达到设计要求;振冲碎石桩对砂土层下卧黏性土层的加固作用不明显,部分深度范围内土体强度降低;当地面以下10 m内不存在厚度大于5 m的软土夹层时,较薄的软土夹层状对挤密加固其余深度的砂土未产生明显影响,对地基承载力影响亦较小。 相似文献
15.
A series of centrifuge shaking table model tests are conducted on 4?×?4 pile groups in liquefiable ground in this study, achieving horizontal–vertical bidirectional shaking in centrifuge tests on piles for the first time. The dynamic distribution of forces on piles within the pile groups is analysed, showing the internal piles to be subjected to greater bending moment compared with external piles, the mechanism of which is discussed. The roles of superstructure–pile inertial interaction and soil–pile kinematic interaction in the seismic response of the piles within the pile groups are investigated through cross-correlation analysis between pile bending moment, soil displacement, and structure acceleration time histories and by comparing the test results on pile groups with and without superstructures. Soil–pile kinematic interaction is shown to have a dominant effect on the seismic response of pile groups in liquefiable ground. Comparison of the pile response in two tests with and without vertical input ground motion shows that the vertical ground motion does not significantly influence the pile bending moment in liquefiable ground, as the dynamic vertical total stress increment is mainly carried by the excess pore water pressure. The influence of previous liquefaction history during a sequence of seismic events is also analysed, suggesting that liquefaction history could in certain cases lead to an increase in liquefaction susceptibility of sand and also an increase in dynamic forces on the piles. 相似文献
16.
楔形桩是一种可以有效提高桩侧摩阻力的纵向变截面异形桩,然而针对该变截面桩沉桩效应特性方面的研究却相对较少。基于透明土材料和粒子图像测速技术(简称PIV),开展静压楔形桩沉桩模型试验,测得沉桩过程中桩周土体的位移场变化规律;沉桩过程中桩周土体位移场由激光射入透明土材料,与透明土材料之间的相互作用产生的独特散斑场,通过CCD(charge-coupled device)电荷耦合元件相机成像处理而获得。同时进行了等截面桩的沉桩模型试验,并对等混凝土材料用量情况下楔形桩和等截面桩的沉桩效应进行对比分析。最后,将此试验结果与基于常规试验手段的静压楔形桩沉桩模型试验和圆孔扩张理论计算结果进行对比分析,验证了基于透明土材料的静压楔形桩沉桩模型试验的准确性和可靠性。研究结果表明,基于透明土材料和PIV技术可以有效地开展静压楔形桩沉桩模型试验研究;楔形桩静压施工过程中对桩周土的影响范围约为等混凝土用量等截面桩的1.2倍。 相似文献
17.
为解释横向载荷作用下刚性桩的失稳机理,针对桩头自由的刚性桩做了一系列横向加载试验。基础土为粉质粘土,含水量介于9.85 %~13.85 %之间。由载荷-位移全过程曲线发现,刚性桩在横向载荷达到一定值时会失稳;由试验录像及土体剖面发现,由于土体的软化破坏,在桩后土体内会出现贯穿的局部破坏并形成一楔体,同时在土面伴随一不完全的椭圆形鼓包及一条平行于加载方向的拉伸裂缝,而在桩前土中,由于桩的挤压会形成一条侵彻沟。分析认为,对大位移刚性桩桩后土体的破坏是桩失稳的根本原因。 相似文献
18.
被动桩对侧向位移的土层起到遮拦作用的机制主要是土拱效应。采用土工有限元软件Plaxis Tunnel 3D 1.2,对堆载荷载作用下邻近桩基中的土拱效应产生机制和性状进行三维数值分析,指出目前被动桩中土拱效应二维有限元分析存在的问题。考虑桩土侧移与相对位移,再利用土工有限元软件Plaxis2D 8.2详细地研究了侧向土体位移大小、桩身水平位移大小、土体性质以及桩土接触面性质等影响因素对土拱效应性态和桩土荷载分担比的影响。 相似文献
19.
随着全套管护壁振动取土灌注桩施工工艺的发展,灌注桩在工程中的应用越来越广泛,但是关于灌注桩护壁套管高频振动贯入速率的研究较少。通过假定套管为刚体,将套管周围土体划分为同心轴的圆环柱体,利用Gudehus-Bauer亚塑性本构模型计算套管外侧各土体单元接触面间的剪应力和套管端部土体竖向应力,并考虑套管振动贯入过程中土塞效应,建立灌注桩套管高频振动贯入砂土中贯入速率的计算模型。将所提出的贯入速率计算结果和物理模型试验结果与有限元结果进行对比分析,验证了计算模型的合理性。通过参数分析,得到地基土体孔隙比、振动频率和套管直径对贯入速率的影响规律,为实际工程中快速、准确地预测套管振动贯入速率提供了可靠方法。 相似文献
20.
基坑开挖后坑底土体回弹,将会带动坑内基桩回弹,并在桩侧产生侧摩阻力。为了分析基坑开挖条件下单桩及群桩的受力变形特性,采用三维有限元方法对单桩及群桩在基坑开挖条件下的回弹位移进行了分析。分析结果表明,基桩在基坑开挖条件下的回弹位移分为桩侧土体回弹而引起的基桩回弹和下卧层回弹导致的基桩回弹两部分。由于群桩外侧桩的遮帘效应,中心桩的回弹位移小于外侧桩,中心桩桩侧摩阻力的发挥量也小于外侧桩。随下卧层相对刚度 Eb/ Ec变大,5×5群桩回弹位移相对减小量 Wr变大,且 Wr的变化与桩位置有关。3种不同构形群桩的对比分析结果表明:群桩桩数越多,遮帘效应越明显; Wr受桩数的影响大于受桩间距的影响。 相似文献
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