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1.
由多个分离基础组成的多基础系统是常用的海洋结构基础型式。基于破坏包络面理论,分析了砂土地基多基础系统的失效模式,建立了相应的承载力计算方法,并验证了计算方法的可行性。对比分析了单一基础和多基础系统不同荷载路径下的荷载安全系数,探讨了破坏包络面理论与分项系数法相结合的基础承载力计算方法。失效模式的分析表明,由于水平荷载的增大,四腿平台结构迎浪侧基础首先到达破坏包络线,其失效模式属于滑动失稳,但由于基础间的运动约束,其并不会出现真正的滑移破坏。随着水平荷载进一步地增大,迎浪侧基础承担的水平和竖向荷载不断减小,导致背浪侧基础受到不断增大的荷载。最终,背浪侧基础也到达破坏包络线,多基础系统失效。分析表明,荷载路径对基础的荷载安全系数有决定性的影响,计算基础的荷载安全系数需指明相应的荷载路径。鉴于破坏包络面的大小和形状取决于众多因素,基础设计时需采用特定工况下的破坏包络面进行承载力计算。 相似文献
2.
Bearing Capacity of Strip Footings Near Slopes 总被引:2,自引:1,他引:1
In the last decades a great attention was given by many authors to the evaluation of the static and seismic bearing capacity
of footings near slopes. In this paper a model has been developed based on the limit equilibrium method, considering a circular
surface propagates towards the slope until the sloping ground is reached. The bearing capacity is investigated considering
either the distance of the footing from the edge of the slope and/or the effect of the footing embedment. A validation of
the proposed model was made by a comparison with solutions taken from literature regarding the evaluation of the bearing capacity
for a footing adjacent to a slope and for an inclined load. The loading conditions consist in vertical and horizontal stress
on the footing and on the soil below the footing. Both the inertial and kinematic effects of the seismic loading have been
analyzed, and a simple equation has been derived for the evaluation of the seismic bearing capacity. The static and seismic
bearing capacity has been investigated as a function of the soil friction angle, of the seismic coefficient, of the sloping
ground. Finally, the influence of the distance of the footing from the edge of the slope was taken into consideration in the
evaluation of the bearing capacity, and a threshold distance at which the reduction of the bearing capacity due to the sloping
ground vanishes has been defined. 相似文献
3.
土钉墙墙底地基土的承载力验算是土钉墙支护设计的一项重要内容。国内的工程实践中,通常将土钉墙地基承载力与坑底土抗隆起验算合并考虑。针对具体案例,通过Plaxis3D有限元数值模拟,分析研究了土钉墙底部土体发生地基承载力失稳的破坏模式、破坏荷载以及土钉墙墙底应力分布特点等,探讨了依据我国相关规程进行土钉墙坑底隆起或地基承载力计算可能存在的问题。借鉴国外加筋土挡墙地基承载力计算的一般方法,将土钉墙作为荷载倾斜、偏心的刚性基础对待,利用荷载倾斜、偏心条件下传统刚性浅基础的地基承载力的Meyerhof解和Vesic解,对土钉墙地基承载力进行了计算和对比,通过对比发现,Meyerhof解更接近实际,据此,提出了土钉墙地基承载力计算的合理模式。 相似文献
4.
倾斜荷载作用下桶形基础承载力特性研究 总被引:1,自引:0,他引:1
针对吸力式桶形基础结构,借助大型通用有限元软件ABAQUS平台,建立了均质软黏土地基上倾斜荷载作用的三维弹塑性有限元计算模型。通过系统地计算分析,得到了单个倾斜荷载分量作用下桶形基础的承载力特性及其破坏机制。进一步研究了水平倾斜荷载与竖向倾斜荷载共同作用下的桶形基础承载性能,得到了该倾斜荷载加载方式作用下桶形基础在V-H平面内的破坏包络面,依此建立了倾斜荷载与偏心距e之间的三维破坏包络曲面。计算结果表明,偏心距e对竖向倾斜承载力的影响相对水平倾斜承载力较大;桶形基础承载性能随着偏心距e的增大而减小。 相似文献
5.
Bearing Capacity of Embedded Strip Footings on Cohesionless Soil Under Vertical and Horizontal Loads
Hadjer Yahia-Cherif Abdelhak Mabrouki Djamel Benmeddour Mekki Mellas 《Geotechnical and Geological Engineering》2017,35(2):547-558
In the last decades a few attention was given to the evaluation of the bearing capacity of embedded footing under inclined loads on a frictional soil. This paper focuses on a numerical study using the finite-difference code Fast Lagrangian Analysis of Continua (FLAC), to evaluate the bearing capacity of embedded strip footing on a frictional soil. The soil is modeled by an elasto-plastic model with a Mohr–Coulomb yield criterion and associative flow rule; the effect of non-associativity of the soil on the bearing capacity is also investigated. The effect of the embedment is estimated though a depth factor, defined as a ratio of the bearing capacity of a strip footing at a depth D to that of a strip footing at the ground surface. The inclination effect is estimated by inclination factors, defined as the ratio of the limit vertical load for a footing under inclined loading to that of the vertically loaded footing. Both swipe and probe analyses were carried out to identify the vertical force–horizontal force (V–H) failure envelope. The results have been compared with those available in the literature. 相似文献
6.
为了研究循环荷载频率变化对吸力锚承载力的影响,进行了不同频率循环荷载作用下,张紧式吸力锚在最佳系泊点受静荷载与循环荷载共同作用时的承载力模型试验。结果表明,当循环荷载与静荷载加载方向相同时,尽管循环荷载频率不同,但锚的破坏模式与静荷载作用下锚的破坏模式一致,均为竖向拔出;荷载循环频率的变化对锚的循环平均位移有一定影响,在循环荷载开始作用阶段,随循环频率增大,循环平均位移逐渐减小,随荷载循环次数增加,循环频率对循环平均位移影响逐渐减弱;荷载循环频率改变会对锚的循环承载力产生影响,当荷载循环频率从0.1 Hz减小至0.01 Hz时,若循环破坏次数为100,循环承载力降低8%左右;若循环破坏次数为1 000,循环承载力降低4%左右;当循环破坏次数达到2 000时,循环承载力仅降低1%左右,此时可忽略循环荷载频率的变化对承载力的影响。 相似文献
7.
8.
软土中桶型基础水平循环承载力的模型试验 总被引:2,自引:0,他引:2
利用真空预压方法制备了一个大尺寸软黏土模型试验土池,进行了不同竖向静荷载与水平循环荷载共同作用下软土中单桶基础承载力的模型试验,研究了竖向静荷载与水平循环荷载对基础承载力的影响。结果表明,基础的水平循环承载力小于静承载力;导致基础破坏的循环荷载与循环次数取决于竖向静荷载。竖向静荷载越大,与同一循环破坏次数对应的循环荷载就越小。依据模型试验土的循环强度变化关系,采用弹塑性有限元计算方法对模型试验进行了数值模拟,计算与试验结果基本吻合,表明可以依据软黏土的循环强度变化关系,通过弹塑性有限元数值计算评价软土地基中桶型基础的水平循环承载力。 相似文献
9.
The paper presents a comprehensive study of the failure envelope (or capacity diagram) of a single elastic pile in sand. The behavior of a pile subjected to different load combinations is simulated using a large number of finite element numerical calculations. The sand is modeled using a constitutive law based on hypoplasticity. In order to find the failure envelope in the three-dimensional space (i.e. horizontal force H, bending moment M and vertical force V), the radial displacement method and swipe tests are numerically performed. It is found that with increasing vertical load the horizontal bearing capacity of the pile decreases. Furthermore, the presence of bending moment on the pile head significantly influences the horizontal bearing capacity and the capacity diagram in the H–M plane manifests an inclined elliptical shape. An analytical equation providing good agreement with the 3D numerical results is finally proposed. The formula is useful for design purposes and the development of simplified modeling numerical strategies such as macro-element. 相似文献
10.
开展了张紧式吸力锚在侧壁最优系泊点处遭受平均荷载和循环荷载共同作用下的模型试验,着重研究了软黏土中吸力锚在等幅及变幅循环荷载下的变形失稳过程。研究发现,循环累积位移过大是锚发生破坏的主要原因。对于等幅循环加载试验,由于竖向附加荷重的施加,锚在水平向的循环累积位移要明显大于竖向,表现为明显的水平破坏模式。在特定的平均荷载水平下,循环荷载水平越高,锚的累积位移发展得越快,达到破坏所需的循环次数就越少。循环位移随循环次数的增长变化不明显,但随循环荷载水平的增大而增大。对于变幅循环加载试验,系泊点各方向的循环累积位移与循环位移均与循环荷载水平成正比。不同的循环加载时程下,锚的竖向累积位移均比水平累积位移大,表现为偏向于竖向破坏的中间破坏模式。锚前期的循环加载历史对后续加载产生的累积变形有明显影响。与静力加载相比,循环加载时锚的运动方向角有所增大,这可能是由于锚底孔压的累积要大于锚侧孔压的累积,从有效应力的角度分析,锚底有效应力的减少相对锚侧明显,进而使得锚竖向承载力减小得更多,导致锚的竖向运动更明显。 相似文献
11.
利用三维非线性弹性有限元方法,研究了刚性桩复合地基在不同垂直荷载作用下的水平承载力特性,分析了不同褥垫层厚度及其地基土的性质对复合地基水平受力特性的影响,得出了水平荷载作用下桩身弯矩和挠度的分布规律。研究表 明,垂直荷载的大小改变了复合地基水平荷载作用下的破坏模式,直接影响着其水平承载力;适当的垫层厚度可降低桩所分担的水平荷载,有利于桩身的安全。 相似文献
12.
通过一系列模型试验研究了倾斜荷载作用下吸力式沉箱基础的最佳作用点位置,试验中考虑了荷载作用点、荷载作用角度和长径比3个重要因素。基于模型试验得到的荷载-位移曲线,采用合适的破坏标准确定了各工况下吸力式沉箱基础的抗拔承载力,根据承载力的变化规律分析确定了吸力式沉箱基础的最佳作用点位置。结果表明,荷载作用角度对吸力式沉箱基础承载力的影响显著,当荷载水平作用于基础时,其承载力最大。荷载作用点位置对吸力式沉箱基础承载力的影响取决于荷载作用角度的大小,当荷载作用角度较小时,荷载作用点位置的影响显著,且最佳作用点位置位于沉箱高度的2/3~3/4处;当荷载作用角度较大时,荷载作用点位置的影响很小,可以忽略。结合荷载与吸力式沉箱基础的转角关系,分析了荷载水平作用于最佳作用点下吸力式沉箱基础的破坏模式。 相似文献
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14.
This paper presents a study on the bearing capacity of eccentrically-loaded rough ring footings resting over cohesionless soil. To this aim, a series of 3D numerical simulations were performed using the finite difference method. In order to consider the effect of load eccentricity, reduction factor method is applied. In this method, the ratio of an eccentrically-loaded bearing capacity to the bearing capacity of the same footing under vertical load is defined. Comparison between the results of the numerical simulations with those of analytical solutions and experimental data indicates good agreement. A mathematical expression is also introduced for eccentrically-loaded ring footings. 相似文献
15.
作为新型的深水海洋基础型式,吸力式沉箱基础被广泛地用于系泊深水海洋设施中,从而承受巨大的倾斜上拔荷载。在上拔荷载水平分量与竖向分量的共同作用下,吸力式沉箱的承载特性及其工作性能评价是海洋工程设计与建设中的关键技术问题之一。然而现有的理论分析与试验研究并不能满足工程实践的需要,因此,对吸力式沉箱基础的极限承载力分析建立了有限元数值计算方法。当沉箱基础在快速拔出过程中,正常固结黏土处于完全不排水状态,沉箱基础发生整体破坏时表现出反向地基承载力失稳模式,此时沉箱基础所发挥的极限承载能力往往最大。为此,在数值计算中直接假定沉箱基础及其周围土体处于完全不排水状态,针对不同的沉箱长径比,分别确定了在竖向上拔荷载和水平拉拔的单独作用下沉箱基础极限承载力。对比发现:竖向上拔极限承载力有限元解能够较好地与理论计算结果相符合,而水平极限承载力解与理论计算结果存在一定的差异。 相似文献
16.
《Geomechanics and Geoengineering》2013,8(2):107-111
The stability of eccentrically loaded strip footings on slopes was investigated using the method of finite element analysis based on the theory of elasto-plasticity. The analysis was done for two different soils involving three levels of slope angle, six footing locations, and two levels of load eccentricity plus central vertical loading. The strip footing analysed was a 3-ft (0.9 m) wide reinforced concrete footing embedded to a depth of 3 ft (0.9 m). The analysis focused on footing settlement, plastic yielding of soil, and ultimate bearing capacity. The results of analysis show that the influence of load eccentricity on footing pressure vs. footing centre settlement is negligibly small. However, the progressive soil yielding and ultimate bearing capacity are greatly affected by load eccentricity. Furthermore, the effect of load eccentricity differs considerably with the load location relative to the footing centre and slope crest. The ultimate bearing capacity for the eccentric load located on the slope side is significantly greater than that for the load located on the other side of the footing centre. For a 2(H): 1(V) slope in silty clay, the effect of slope on footing stability decreases with increasing footing location from slope crest as would be expected, and diminishes when the footing is located from the crest at about 5-times the footing width. 相似文献
17.
Cheng‐Der Wang 《国际地质力学数值与分析法杂志》2005,29(14):1341-1361
This study derives analytical solutions for estimating the lateral stress caused by horizontal and vertical surcharge strip loads resting on a cross‐anisotropic backfill. The following loading types are employed in this work: point load, line load, uniform strip load, upward linear‐varying strip load, upward nonlinear‐varying strip load, downward linear‐varying strip load and downward nonlinear‐varying strip load. The cross‐anisotropic planes are assumed to be parallel to the horizontal surface of the backfill. The solutions proposed herein have never been mentioned in previous literature, but can be derived by integrating the point load solution in a Cartesian co‐ordinate system for a cross‐anisotropic medium. The calculations by the presented solutions are quick and accurate since they are concise and systematized. Additionally, the proposed calculations demonstrate that the type and degree of material anisotropy and the horizontal/vertical loading types decisively influence the lateral stress. This investigation presents examples of the proposed horizontal and vertical strip loads acting on the surface of the isotropic and cross‐anisotropic backfills to elucidate their effects on the stress. The analytical results reveal that the stress distributions accounting for soil anisotropy and loading types are quite different from those computed from the available isotropic solutions. Restated, the derived solutions, as well as realistically simulating the actual surcharge loading circumstances, provide a good reference for the design of retaining structures for the backfill materials are cross‐anisotropic. Copyright © 2005 John Wiley & Sons, Ltd. 相似文献
18.
半圆堤是适用于软土地基的一种轻型重力式的新型防波堤结构,复合加载模式下软基上半圆堤的稳定性计算和结构破坏模式尚需建立合理的分析和计算方法。将加载模式与软基上大型海岸结构稳定性分析的有限元模拟方法相结合,同时考虑半圆堤在不同荷载组合时可能发生沿底板或抛石基床底部的滑动破坏及地基竖向承载力破坏,建立了复合加载模式下软基上半圆堤的稳定性分析方法,得出了结构的稳定性破坏模式和破坏包络线(面),并分析了箱内填砂量、抛石基床宽度及地基加固深度对半圆堤稳定性的影响。计算结果表明:半圆堤结构在复合荷载作用的破坏包络线(面)均由一定区域的结构滑移破坏面和地基承载力破坏线(面)组成,并将整个荷载组合区分成4个区域:稳定区、只发生滑移破坏区、只发生地基承载力破坏区和同时发生滑移和地基承载力破坏区;荷载与位移组合加载模式得到的地基承载力破坏包络线位于Swipe加载方式得到的破坏包络线之外,但对每种加载方式得到的地基承载力破坏包络线变化趋势基本一致;随着箱内填砂高度的增加沿沉箱底部和抛石基床底部的抗滑安全系数均增加,但地基承载力安全系数减小;随着抛石基床宽度或地基加固深度的增加,地基承载力安全系数明显增大。 相似文献
19.
20.
By using small scale model tests, the interference effect on the vertical load-deformation behavior of a number of equally
spaced strip footings, placed on the surface of dry sand, was investigated. At any stage, all the footings were assumed to
(i) carry exactly equal magnitude of load, and (ii) settle to the same extent. No tilt of the footing was permitted. The effect
of clear spacing (s) among footings on the results was explored. A new experimental setup was proposed in which only one footing
needs to be employed rather than a number of footings. The bearing capacity increases continuously with decrease in spacing
among the footings. The interference effect becomes further prominent with increase in soil friction angle. In contrast to
an increase in the bearing capacity, with decrease in spacing of footings, an increase in the footing settlement associated
with the ultimate state of shear failure was observed. The present experimental observations were similar to those predicted
by the available theory, based on the method of characteristics. As compared to the theory, the present experimental data,
however, indicates much greater effect of interference especially for larger spacing among footings. 相似文献