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1.
为了获得广东珠江口海洋软土的不排水抗剪强度,分别开展了不固结不排水剪切和固结不排水剪切三轴试验、无侧限抗压试验、现场取土离心机正常固结模型地基的T-bar静力贯入试验以及现场十字板剪切试验和静力触探试验(CPT),并采用土力学经验公式进行计算,确定了珠江口海洋软土不排水抗剪强度沿深度的分布规律,并综合评价了各种方法的有效性。为了获得该区域软土的循环弱化规律,分别开展了循环动三轴试验、现场取土离心机正常固结模型地基的T-bar循环贯入试验和现场单桩水平循环加载试验,揭示了软土循环动模量比与循环次数之间的双对数线性关系,获得了3种试验条件下珠江口海洋软土的循环弱化因子。其研究结果可为该区域海洋建筑物设计提供直接依据,也可为其他类型工程提供借鉴。 相似文献
2.
可液化场地微型桩的地震响应分析是确保工程安全和优化抗震设计的前提。应用动态离心机试验和三维有效应力数值分析方法,研究了微型单桩桩台的侧向变形和加速度、不同埋深桩身弯矩、可液化场地的加速度及超孔隙水压力等响应特征。首先开展了相对密实度为57%饱和土层、输入波是频率为1 Hz和峰值加速度为1.516 m/s2正弦波的微型桩40 g动态地震响应离心机试验,进而应用基于多重剪切机构塑性模型和液化前缘状态面概念的三维有效应力分析方法,反演了试验结果,并进行了对比分析,结果表明,数值模拟与离心机试验结果吻合,液化场地特性控制着建于其中微型桩的地震响应特征,微型桩桩台的水平变形和残余变形可达78、30 mm,桩身最大弯矩和最大残余弯矩呈现向桩身底部迁移特点,同时表明,基于动态土工离心机试验和数值分析相结合的研究方法,分析可液化场地微型桩地震响应特性是有效可行的,研究结论为可液化场地微型桩的抗震设计提供了可靠的依据和参考。 相似文献
3.
高承台群桩基础是高速铁路桥梁基础的一种常用形式,受到风、地震等荷载作用影响,常常需要承受较大的横向荷载。采用室内物理模型试验和三维有限元程序ABAQUS对软土地层中单桩、群桩的横向承载特性进行了研究,软土采用修正剑桥黏土本构模型,试验结果与有限元计算结果吻合较好。群桩研究方案包括了桩数的变化以及桩间距的变化。结果表明,群桩基础的基桩平均横向承载力(总承载力/桩数)较单桩基础显著增加,且水平荷载方向桩间距越大,其横向承载力越大;群桩基础基桩受力存在三维空间效应,不同位置基桩受力大小排序为角桩最大,其次为边桩,最小为中间桩,弯矩极值差异可达20%,群桩基础桩周土影响范围距外围基桩边缘净距离约为16D (D为桩径)。桩与桩相互影响效应对群桩水平承载不利,承台约束效应对水平承载有利。探讨了考虑上述两种效应的群桩效应系数计算方法,通过计算验证了该方法在软土地区高承台群桩基础横向承载力计算中的适用性。 相似文献
4.
Numerical studies of anchored sheet pile wall behavior constructed in cut and fill conditions 总被引:1,自引:0,他引:1
The construction of sheet pile walls may involve either excavation of soils in front or backfilling of soils behind the wall. These construction procedures generate different loading conditions in the soil and therefore different wall behavior should also be expected. The conventional methods, which are based on limit equilibrium approach, commonly used in the design of anchored sheet pile walls do not consider the method of construction. However, continuum mechanics numerical methods, such as finite element method, make it possible to incorporate the construction method during the analyses and design of sheet pile walls. The effect of wall construction type for varying soil conditions and wall heights were investigated using finite element modeling and analysis. The influence of construction method on soil behavior, wall deformations, wall bending moments, and anchor forces were investigated. The study results indicate that walls constructed by backfill method yield significantly higher bending moments and wall deformations. This paper presents the results of the numerical parametric study performed and comparative analyses of the anchored sheet pile walls constructed by different construction methods. 相似文献
5.
路基填土对桥台桩基影响的试验与数值仿真分析 总被引:2,自引:0,他引:2
台后路基荷载会使地基软弱下卧层发生压缩和水平移动,致使桥台桩基的受力性状非常复杂。在现场测试结果的基础上,建立了三维有限元模型,模拟了台后路基荷载作用下桥台桩基的受力性状,并与实测结果进行了对比分析。结果表明,有限元计算结果与实测结果较为一致。中间桩排和后排桩桩身最大弯矩与台后路基荷载的关系呈双折线型,与Stewart等提出的一致,但双折线转折点所对应的路基填土荷载并不一致。中间桩排的填土荷载为软土层固结不排水黏聚力强度ccu与土层厚度的加权平均值的3.34倍,后排桩约为2.22倍;前排桩的最大弯矩与路基填土荷载呈线性变化。桩顶变形与台后路基荷载呈非线性关系,可以分为两部分。前排桩桩身最大弯矩位置一直在软土层中,不随台后路基荷载变化;而后排桩桩身最大弯矩位置在台后路基荷载较小时位于软土层中,随着台后路基荷载的增大,最终出现在桩顶。 相似文献
6.
Chunyang Liu Hoda Soltani Kanthasamy K. Muraleetharan Amy B. Cerato Gerald A. Miller Sri Sritharan 《Acta Geotechnica》2016,11(6):1431-1444
Presented in this paper are results of two centrifuge tests on single piles installed in unimproved and improved soft clay (a total of 14 piles), with the relative pile–soil stiffness values varying nearly two orders of magnitude, and subjected to cyclic lateral loading and seismic loading. This research was motivated by the need for better understanding of lateral load behavior of piles in soft clays that are improved using cement deep soil mixing (CDSM). Cyclic test results showed that improving the ground around a pile foundation using CDSM is an effective way to improve the lateral load behavior of that foundation. Depending on the extent of ground improvement, elastic lateral stiffness and ultimate resistance of a pile foundation in improved soil increased by 2–8 times and 4–5 times, respectively, from those of a pile in the unimproved soil. While maximum bending moments and shear forces within piles in unimproved soil occurred at larger depths, those in improved soil occurred at much shallower depths and within the improved zone. The seismic tests revealed that, in general, ground improvement around a pile is an effective method to reduce accelerations and dynamic lateral displacements during earthquakes, provided that the ground is improved at least to a size of 13D × 13D × 9D (length × width × depth), where D is the outside diameter of the pile, for the pile–soil systems tested in this study. The smallest ground improvement used in these tests (9D × 9D × 6D), however, proved ineffective in improving the seismic behavior of the piles. The ground improvement around a pile reduces the fundamental period of the pile–soil system, and therefore, the improved system may produce larger pile top accelerations and/or displacements than the unimproved system depending on the frequency content of the earthquake motion. 相似文献
7.
针对黏土中管桩土塞形成机制,利用耦合欧拉拉格朗日(CEL)法模拟钢管桩的大变形沉贯过程。在验证网格密度参数对数值计算精度影响的基础上,结合管桩内外土体速度场、应力场、土塞高度和增量充填比的变化分析了土塞演变和土塞形成机制,讨论了摩擦系数以及软硬土夹层对土塞形成的影响,并与离心机试验和理论计算数据验证。结果表明,管桩贯入过程土塞的演变可分为上涌期、过渡期和下滑期3个阶段。随着桩的贯入,桩端下轴线处形成连续的下凹塑性拱,当此处竖向应力增量达到7~8倍不排水抗剪强度时土塞初步形成。同时土塞效应随着桩-土间摩擦系数增大,桩径减小(壁厚相同)而增强;软硬夹层对土塞效应影响显著,上硬下软的土层易形成完全土塞,而上软下硬的土层,硬土挤入管桩不会形成土塞。 相似文献
8.
为探明不同类型地震波作用下软弱土层差异厚度对单桩动力响应特性的影响,采用振动台试验,开展了不同软弱土层厚度变化下桩基础的加速度、水平位移、弯矩动力响应变化特性及桩基损伤分析。试验结果表明:地震波作用下,桩周土体的约束作用受软弱土层厚度的影响显著。桩身加速度在软弱土层中的放大效果最为显著,桩顶加速度放大系数与软弱土层厚度呈正相关;桩顶水平位移在软弱土层厚度最大时达到最大;桩身弯矩最大值出现在软弱土层中,随其厚度增大而增大。不同土层厚度下,桩身弯矩最大值均小于抗弯能力设计值,桩基完整性较好。桩基础抗震设计计算时,应重点加强桩基础在软弱土层中的抗震能力,并选择多种地震波进行抗震验算。 相似文献
9.
Subhadeep Banerjee Minu Joy Debdeep Sarkar 《Geotechnical and Geological Engineering》2016,34(6):1899-1908
This paper examines seismic effects on fixed-head, end-bearing piles installed through soft clay. The numerical analyses were conducted using ABAQUS with a hypoelastic constitutive model for the clay. The dimensionless parameters involving the major parameters such as pile modulus, soil modulus, slenderness ratio, natural frequencies of clay layer and pile–raft, superstructure mass, density of the soil and peak ground acceleration were obtained from the parametric studies. The relationships for the amplification of ground motions and the maximum bending moment in the pile were developed based on regression of the numerical data. The computed results from the proposed relationships were compared with the results reported in the past studies. 相似文献
10.
In densely built areas, the development of underground transportation systems often involves twin tunnels, which are sometimes unavoidably constructed adjacent to existing piled foundations. Because soil stiffness degrades with induced stress release and shear strain during tunnelling, it is vital to investigate the pile responses to subsequent tunnels after the first tunnel in a twin-tunnel transportation system. To gain new insights into single pile responses to side-by-side twin tunnelling in saturated stiff clay, a three-dimensional coupled-consolidation numerical parametric study is carried out. An advanced hypoplasticity (clay) constitutive model with small-strain stiffness is adopted. The effects of each tunnel depth relative to pile are investigated by simulating the twin tunnels either near the mid-depth of the pile shaft or adjacent to or below the pile toe. The model parameters are calibrated against centrifuge test results in stiff clay reported in literature. It is found the second tunnelling in each case resulted in larger settlement than that due to the first tunnelling with a maximum percentage difference of 175% in the case of twin tunnelling near the mid-depth of the shaft. This is because of the degradation of clay stiffness around the pile during the first tunnelling. Conversely, the first tunnelling-induced bending moment was reduced substantially during the second tunnelling. The most critical location of twin tunnels relative to the pile was found to be the tunnels below the pile toe. This is because the entire pile was located within the major influence zone of the twin tunnelling. Two distinct load transfer mechanisms can be identified in the pile, namely downward load transfer in case of tunnels near mid-depth of the pile shaft and next to the pile toe and upward load transfer in case of twin-tunnelling below the pile toe. These two transfer mechanisms can be useful for practitioner to assess the pile performance due to twin tunnelling. 相似文献
11.
为了揭示黏土中静压沉桩的宏观力学特性,采用西澳大学的梁式离心机压桩系统,通过在双层高岭黏土中进行一系列1g重力场情况下的T-bar触探测试试验、静压沉桩试验、桩拉伸试验和压缩试验,对比分析了T-bar分别在均质软质黏土和双层黏土中随贯入深度变化测得的不排水剪切强度的特性;研究了桩体在贯入过程中沉桩阻力、桩端阻力以及桩侧摩阻力的发展规律;并对桩身径向总应力在沉桩过程中的变化规律进行了探讨;此外,还揭示了不同桩型沉桩终压力与桩承载力之间的关系。结果表明:在黏土中沉桩时,桩侧摩阻力在整个沉桩阻力中发挥主要的作用;对于同一土层而言,当桩超过土层分界面以下2D(D为桩径)范围后,桩端阻力并不受相邻土层性质的影响;随着压桩后时间的推移,桩侧摩阻力对承载力的时效影响较桩端阻力大。 相似文献
12.
软土地层中当桩顶水平荷载较大时,采用传统m法计算容易低估桩身弯矩与挠曲变形,有必要针对该问题提出相关计算方法。将地基土体简化为理想弹塑性体,假定桩身某一深度处存在土体的弹塑性变形临界点,临界点以上的土体进入塑性变形状态,而临界点以下的土体仍处于弹性变形状态,分段建立桩身挠曲微分控制方程,得到水平受荷单桩简明弹塑性计算方法。现场单桩实测和参数敏感性分析结果表明:采用简明弹塑性计算方法得到的桩身最大弯矩较传统m法计算精度提高38.1%;桩身最大水平位移计算精度提高22.3%;桩顶边界条件对桩身水平位移与弯矩沿桩身的分布规律影响显著;桩身最大弯矩和水平位移对土体的极限抗力系数及其形状参数较敏感,设计中宜按下限值选取。 相似文献
13.
In designing piled raft foundations, controlling the total and differential settlements as well as the induced bending moments of the raft is crucial. The majority of piled raft foundations have been designed by placing piles uniformly. In such a design method, the settlements of the piled rafts are likely to be large, which leads to an increase of the pile length and/or number of piles required to reduce the settlements. However, this increase does not satisfy the requirement for economical design. On the basis of a parametric study, this paper contributes a framework for considering an economical design methodology in which piles are placed more densely beneath the column positions when the piled raft is subjected to column loads. The analysis uses PLAXIS 3D software, and the validity of the parametric study is examined through the results of centrifuge model tests conducted by the authors. The study shows that the concentrated pile arrangement method can help to considerably reduce the total and differential settlements as well as the induced bending moments of the raft. Moreover, the effects of parameters, such as pile length, pile number, raft thickness and load types, on the piled raft behavior are investigated. This study can help practicing engineers choose pile and raft parameters in combination with the concentrated pile arrangement method to produce an economical design. 相似文献
14.
The performance of pile foundations in offshore soft deposits is frequently dominated by passive loading from approach embankments for reclaimed land in Korea. This is mainly because of a Korean offshore soil profile, involving an over 30 m normally consolidated soil, with a strength that varies linearly with depth. This paper presents the results of an investigation on short- and long-term passive loading on the piles using two dimensional elastoplastic-consolidation coupled FEM analyses with large strain mode. This numerical scheme is essentially based on an updated Lagrangian formulation, which is favorably validated in cases of both centrifuge tests and field measurements. Although a parametric study is limited by some of the application, it is shown that passive pile loading is primarily affected by soil profile, pile head boundary condition, magnitude of embankment load, and average degree of consolidation. Simultaneously, time-dependent effect of shear transfer at the pile head is explicitly identified and a useful starting point in design is recommended for passive pile loading in construction (short-term) and consolidation (long-term) phases. 相似文献
15.
软黏土中超长预应力高强度混凝土 管桩竖向承载特性试验研究 总被引:2,自引:0,他引:2
港口码头工程建设将向外海开敞式发展,由于工程地质条件日趋复杂,在超厚软黏土地基上建设高桩码头面临重大难题。因持力层埋深较深,预应力高强度混凝土(PHC)管桩成为设计首选的超长桩基础型式。针对某军用码头85 m设计桩长的试桩进行了试验和数值计算,分析了超长PHC管桩承载力机制与传递规律,基于传递函数法提出改进的双曲函数计算模型,并对垂直静载试桩进行计算。结果表明:桩身轴力和桩顶位移的计算值与实测值吻合较好,证明提出的双曲线模型能够反映轴向承载PHC管桩桩-土相互作用实际情况,能够为软黏土中超长PHC管桩基桩设计提供依据。 相似文献
16.
在劲芯水泥土桩承载路堤的工程应用中,芯桩比外桩短的情况比较普遍。但是,人们对短芯劲芯水泥土桩承载路堤的桩体破坏模式和失稳破坏机理的认识较为欠缺,无法合理评价路堤的稳定性。鉴于此,本文通过室内模型试验,开展短芯劲芯水泥土桩承载路堤失稳破坏模式研究。通过监测芯桩导电通路变化、芯桩桩身应变和桩土竖向应力,并结合PIV技术,综合分析桩体渐进式破坏模式和路堤整体失稳规律。研究结果表明,在路堤顶面下,荷载主要由芯桩承担,并随着超载增加,芯桩外桩荷载分担作用减小,但路堤失稳后芯桩仍具有一定荷载分担作用。在路堤失稳破坏过程中,路堤下桩体表现出受压破坏且芯桩底部局部鼓胀破坏,坡面下桩体表现出压弯和拉弯破坏模式,地基滑动面并不完全穿过桩体破坏位置。 相似文献
17.
Yu Jian-lin Zhou Jia-jin Gong Xiao-nan Xu Ri-qing Li Jun-yuan Xu Shan-dai 《Acta Geotechnica》2021,16(6):1909-1921
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18.
大面积堆填或开挖时深厚软土地层内部常产生较大滑移,这为该类地层中考虑桩土作用的抗滑桩分析带来较大困难。考虑深厚软土的滑移性状,针对既有悬臂桩法计算存在的问题进行修正,滑动面上部桩身受荷段的桩身荷载采用等腰三角形分布且极值点为极限侧土压力,设滑动面下部桩身锚固段上侧桩周软土为理想弹塑性以考虑软土大位移条件,下侧为弹性状态,并通过位移叠加原理对传统方法求解产生滑动面不连续的缺陷进行修正。通过现场桩侧堆载试验验证,修正悬臂桩法的弯矩和位移计算结果较好,桩顶位移误差小于3%,桩身最大弯矩误差小于10%。所提方法有助于深厚软土地层抗滑桩的设计和计算。 相似文献
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20.
为进一步研究沉箱-桩复合基础的水平向承载性能,开展粉质黏土中单桩、沉箱-桩复合基础在水平向荷载和竖向及水平向组合荷载作用下的系列试验,对沉箱-桩复合基础的水平荷载与位移关系、桩身弯矩、位移及土抗力分布规律及群桩效应等进行了研究。结果表明,在水平荷载作用下沉箱对桩顶的约束使桩身弯矩分布较桩顶自由情况要更均匀,并能有效地降低桩身弯矩、位移及土抗力,提高了基础水平承载能力;在同时作用有竖向和水平向组合荷载时,沉箱底摩擦力参与抵抗水平力作用、桩顶竖向力也有利于进一步提高基础水平承载力;试验获得了不同桩数、桩顶约束、荷载作用条件下的沉箱-桩复合基础群桩效应系数,对于桩距为6倍桩径的情况,桩与桩之间的相互影响很小。 相似文献