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1.
《Geomechanics and Geoengineering》2013,8(4):271-277
The paper presents the performance of a square footing with a structural skirt resting on sand and subjected to a vertical load through an experimental study. A series of tests were conducted in a model test tank to evaluate the performance in terms of improvement in bearing capacity and reduction in settlement of a square footing with and without a structural skirt. The results of the study reveal that this type of reinforcement increases the bearing capacity, reduces the settlement and modifies the load settlement behaviour of the footing. The various factors influencing the bearing capacity improvements and settlement reduction using a structural skirt are identified. Skirt factors are proposed which can be introduced into the general ultimate bearing capacity equation for a square footing resting on sand. The predictions made through the modified equation are in reasonable agreement with the experimental results. The bearing capacity of square footing is increased in the range of 11.2 to 70%. The improvement in bearing capacity decreases with the increase in base roughness of the footing. Further, an equation for a settlement reduction factor is proposed which can be used to calculate the settlement of the square footing with structural skirt resting on sand. The settlement reduction factor (SRF, defined as the ratio of settlement of footing with structural skirt to the settlement of footing without structural skirt at a given load) was in the range 0.11 to 1.0 depending on applied load and skirt depth ratio with the use of a structural skirt. The results further reveal that for a given depth of the skirt, the settlement reduction factor decreases with the increase in applied load. The improvement in the bearing capacity and reduction in settlement of a square footing with a structural skirt resting on sand are dependent on the geometrical and structural properties of the skirt, footing, sand characteristics and interface conditions of the sand–skirt–footing system. 相似文献
2.
In this study, four groups of different types of bridge foundation model are tested to research the horizontal bearing behavior of caisson-pile composite foundation in lab based on the Qiongzhou Strait bridge project. The Q-s curve and horizontal ultimate bearing capacity of these four groups of foundations in sandy soil layer are obtained. Pile bending moment and shear force of pile shaft are analyzed in detail. At the same time, the load sharing ratio of caisson and piles is discussed. The results show that the horizontal ultimate bearing capacities of a single caisson foundation are increased by 1.2 times, 1.6 times and 2 times respectively with adding skirts, steel pipe pile, or steel pipe pile and the skirt. The maximum bending moment point is in the middle of the pile shaft, i.e. at about 0.5 m under the mud surface. The horizontal load is borne mainly by the upper caisson foundation and soil layers above the middle upper part of pile. The maximum shear force is found at the joint of pile top of steel pipe and caisson pile, where the reinforcement measures should be taken in practical engineering. The research achievements could provide a better reference for design or construction of caisson-pile composite foundation. 相似文献
3.
以琼州海峡跨海大桥工程为背景,通过4组不同型式深水桥梁基础模型试验,对新型带桩沉箱复合基础的水平向承载性能进行了初步研究。试验得到了4组模型在砂性土层中的Q-s曲线及水平向极限承载力,并对复合基础在各级水平荷载下的桩身弯矩和剪力进行了详细分析,同时对沉箱-桩荷载分担比展开了讨论。试验结果表明:当增加裙边、钢管桩、或同时增加钢管桩和裙边后能够使单体沉箱基础的水平向极限承载力分别提高1.2倍、1.6倍和2.0倍;桩身最大弯矩点均出现在桩身中部即泥面下约0.5 m处。水平荷载主要由上部沉箱基础及桩身中上部土体承担,钢管桩桩顶与沉箱连接部位出现最大剪力,在实际工程中应在此处采取加固措施。研究成果可为这一新型深水桥梁基础的推广应用提供诸多有益参考。 相似文献
4.
复合加载情况下精确求解非均质地基上条形基础的极限承载力以及评价影响极限承载力的相关因素,具有很强的工程实用与理论参考价值。基于极限平衡原理,在Mohr-Coulomb破坏准则的基础上,将非均质地基上条形基础极限承载力问题等价为一个边界待定的泛函极值问题。利用变分原理得到与平衡方程相等价的积分约束条件以及相应的欧拉方程与横截条件。引入问题边界条件,利用VC++6.0编制了数值计算程序,求得了复合加载情况下非均质地基破坏时的滑裂面函数与破坏包络曲线。从理论上研究了土体内摩擦角、土体黏聚力、土层强度比与地下水位变化等因素对地基破坏包络曲线的影响。研究结果表明,其解答是地基极限承载力真实解的某一最小上限。 相似文献
5.
海上风电机组筒型基础工作及承载特性研究 总被引:1,自引:0,他引:1
筒型基础是一种新型的海上风电基础,由于其具有减少工程量、节省投资、缩短施工时间、可重复使用等优点,在某些领域正在逐步替代桩基和重力式基础。目前工程上对筒型基础的设计还没有现成的规范可供使用,一般是将筒内部土体与筒壁视为一体,然后采用简化的极限平衡方法进行设计计算,不能反映筒内土体的工作特性。以福建近海某风电基础工程为依托,采用大型有限元软件ABAQUS对海上风机单筒基础的承载特性进行了三维有限元数值分析。根据海上风机的受力特点,考虑基础隔舱的作用效果,建立了筒型基础的简化模型与有无隔舱的计算模型。计算结果表明:筒型基础在受荷过程中,基础内部土体产生屈服变形,使得筒型基础的承载特性不同于简化极限平衡方法。两者之间的差异使得实际的地基承载能力比极限平衡方法计算所得的要小。此外,对现行简化计算方法的误差进行了估计,并对筒型基础承载力计算提出建议,可供筒型基础设计者参考。 相似文献
6.
复合加载条件下沉箱基础稳定性的三维效应 总被引:1,自引:0,他引:1
联合采用swipe加载模式与固定位移比加载模式,对于吸力式沉箱基础在水平荷载H与力矩M的复合加载条件下的稳定性进行比较系统的三维有限元分析,主要探讨了基础埋深与直径之比、地基土不排水强度的非均质性对于基础在H-M荷载空间内的破坏包络轨迹的影响,揭示了地基在不同荷载分量组合条件下的失稳破坏机制,并与平面应变假定下得到的结果进行了比较。计算结果表明:平面应变与三维情况下基础的破坏包络面形状有较大差异,分析基础稳定性时,必须考虑其三维效应。在三维情况下,非均质土中埋深与直径之比较小的基础的破坏包络面仍然会向负方向倾斜,已有的包络面方程明显高估这种情况下沉箱基础在正向水平荷载与力矩联合作用下的承载力,从而导致基础设计偏于不安全。 相似文献
7.
The bearing capacity of shallow foundations in a non-homogeneous soil profile has been a challenging task in geotechnical
engineering. In this paper, a limit equilibrium method is used for calculating bearing capacity factors of shallow foundations
constructed on a two-layered granular soil profile. The main objective has been to determine the ultimate bearing capacity
computed from equivalent bearing capacity factors Nq and Nγ and comparing that with numerical analysis using finite element methods. It will be shown that the data obtained form the
developed method are well comparable with those obtained from FE approach, specially when the difference between shear strength
parameters of layers is low which is a practical case for sedimentary soil profiles and also for artificially compacted soils.
A computer program has been developed to investigate the influence of various parameters on bearing capacity factors. 相似文献
8.
在部分浅海由于大型施工船舶无法进入,海上风电工程中传统的重力式基础或桩基础不再适用,为此提出了一种新型基础--分段斜壁桶形基础。基于极限平衡法对分段斜壁桶形基础的水平承载力进行了系统性研究,提出了水平承载力计算方法,并进一步考察了斜壁倾角、桶高、桶径、土性参数等对水平承载力的影响。计算表明,水平承载力随着上部桶壁倾角、下部桶壁倾角、地基反力比例系数、桶基顶部直径、桶基高度的增大而增大,随着海床深度的增加而减小。基于体积压缩率的概念,论证并推荐优先使用上部桶壁倾斜、下部桶壁直立的桶形基础构型。建议发展针对海床地基反力比例系数的准确确定方法。研究结果有助于对桶形基础进行优化设计。 相似文献
9.
Because large construction ships cannot enter the shallow sea, traditional configuration foundations, such as gravity-type foundation and pile foundation, are not suited for offshore wind power project in shallow seas. Therefore, a new type of foundation-segmentally-tapered bucket foundation is proposed. Based on the limit equilibrium method, a systematic method is proposed to calculate the horizontal bearing capacity of the segmentally-tapered bucket foundation. The influences of obliquity of wall, foundation height, top diameter of bucket and soil parameters on the horizontal bearing capacity of the segmentally-tapered bucket foundation are analyzed. It is found that the horizontal bearing capacity increases with the increase of the wall obliquity, soil resistance, top diameter of bucket and foundation height, while decreases with the increase of the depth of seabed. Based on the concept of volume compression ratio, the bucket foundation with inclined upper section wall and vertical lower section wall is recommended and demonstrated. An accurate method is proposed to determine the proportional coefficient of soil resistance. The results are helpful in the optimization design of traditional bucket foundation. 相似文献
10.
The ultimate bearing capacity of strip footings resting on subsoil consisting of a strong sand layer (reinforced/unreinforced)
overlying a low bearing capacity sand deposit has been investigated. Three principal problems were analysed based on results
obtained from the model tests as follows: (1) the effect of stratified subsoil on the foundations bearing capacity; (2) the
effect of reinforcing the top layer with horizontal layers of geogrid reinforcement on the bearing capacity; (3) effect of
reinforcing stratified subsoil (reinforced and unreinforced) on the settlement of the foundation. It has been observed that
reinforcing the subsoil after replacing the top layer of soil with a well-graded soil is beneficial as the mobilization of
soil-reinforcement frictional resistance will increase. 相似文献
11.
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
12.
输电杆塔和风电机组基础主要承受上部结构倾覆弯矩荷载,倾覆承载性能是该类基础设计中的关键问题。针对饱和软黏土地基中的杆式结构桶形基础,通过开展位移控制循环加载、位移维持加载、力控制循环加载和单调静力加载离心模型试验,研究其倾覆承载能力。试验发现,当桶形基础达到极限承载力时其转动中心位置约在桶盖正下方0.8倍桶裙高度处;当循环倾覆弯矩幅值与极限抗弯承载力比值小于3/5时,桶形基础在循环过程中转角的累积难以持续增长,并逐渐趋于稳定;循环加载作用下土与结构相互作用刚度出现明显弱化,所获得的桶形基础循环弱化因子阈值约为0.15;位移维持加载的峰值荷载-位移曲线与单调静力加载的荷载-位移曲线较为一致,位移维持加载的谷值荷载-位移曲线对应的承载力较峰值荷载-位移曲线对应的承载力明显偏小,减少约30%~40%。 相似文献
13.
Hamid Reza Tabatabaiefar 《Geomechanics and Geoengineering》2017,12(1):28-35
In this study, a synthetic soil mixture has been developed and proposed for experimental soil-structure interaction shaking table tests on building frames with shallow foundations resting on soft soil deposits. The proposed mix provides adequate undrained shear strength to mobilise the required shallow foundation bearing capacity underneath the structural model while meeting both criteria of dynamic similarity between the model and the prototype to model soft soils in shaking table tests. To find the most appropriate mixture, different mixes with different proportions of mix components were examined in the soils laboratory. Performing bender element tests, the shear wave velocity of the soil specimens was acquired at different cure ages and the results were examined and compared. Based on the test results, a synthetic clay mixture consisting of kaolinite clay, bentonite, fly ash, lime and water has been proposed for experimental shaking table tests. 相似文献
14.
T. Koumoto 《Computers and Geotechnics》1985,1(3):181-194
A three-dimensional mechanisms of bearing capacity of axially-loaded vertical piles with flat rough base in homogeneous c-φ soil is analyzed on the basis of plastic theory under the condition of axial-symmetry. The soil is considered as a perfectly rigid plastic material obeying the Mohr-Coulomb failure criterion. The stress field is assumed to satisfy the Haar-Karman condition.The results of the analysis are presented as bearing capacity factors in terms of the friction angle φ for the case of deep foundations. The compressibility of soil is accounted by introducing an empirical compressibility factor. The semi empirical values obtained earlier were found to agree closely with the theoretical bearing capacity factors. 相似文献
15.
桩基作为一种广泛使用的基础形式,其在如地震荷载、风荷载下的水平承载力确定十分重要。桩基水平承载能力主要由桩身及土体性质控制,而土体性质中密实度和含石量是影响碎石土场地上桩基水平承载能力的主要因素。为明确碎石土场地土性对桩基水平承载能力的影响,在室内开展5组不同土体密实度和含石量下的水平场地单桩水平静载试验,以此模型试验数据计算所得的临界荷载、极限荷载、水平扩散角、计算宽度和水平抗力系数的比例系数m值等为指标评价土体密实度和含石量对桩基水平承载能力的影响。试验结果表明增大密实度和含石量对各指标均有提升效果,但相比之下,密实度对各项指标的提升效果均明显优于含石量。综合考量下,碎石土密实度和含石量的增大均对桩基水平承载力有提升作用,但土体密实度的提升作用更明显。故对水平承载力要求较高的碎石土上桩基工程的选址中,应优先选择密实度较大的场地。 相似文献
16.
建立了横-竖立体加筋(H-V筋)地基的有限元模型,通过分析地基中的竖向应力分布、水平向位移分布以及筋-土界面相互作用,发现横-竖立体加筋地基中的竖向应力在筋材下方出现扩散和重分布,并逐渐向土体下部传递,使得土体中整体的应力分布更加均匀;同时,横-竖筋材中的竖筋类似于一个侧壁,其提供的垂直侧向力约束了介于竖筋间的土体,限制了土体的侧向水平位移,使得地基中筋材上部土体的侧向水平位移变小。基于有限元模拟对横-竖立体加筋地基加固机制的认识,将横-竖立体筋视为作用在地基上的一维弹性地基梁,通过弹性地基梁理论,根据弗拉曼解推导求解了横-竖立体加筋地基中任意一点竖向附加应力的计算表达式。将模型计算结果与有限元模拟所得结果进行对比发现两者吻合良好。 相似文献
17.
四桶吸力式基础由4个按正方形排列的吸力式桶形基础组成,并通过上部结构连成整体共同承受外部荷载,相比于单桶基础,四桶基础能承受更恶劣的海洋环境荷载,可作为海上风机和海洋平台等结构物的基础,具有广阔的应用前景。为探究饱和软土地基上四桶基础和单桶基础在承载力以及破坏模式方面的关系,优化四桶基础的设计,建立了大量的四桶和单桶基础的三维有限元模型,系统研究了不同基础埋深和土体剪切强度时桶间距对四桶基础各单向承载能力和对应的破坏模式的影响。结果表明,竖向承载力系数受桶间距影响较小,而水平承载力系数受其影响较大,力矩承载力系数受其影响尤为显著;在同一桶间距比时,四桶吸力式基础的各单向承载力系数随基础埋深比的增加逐渐增大,随土体剪切强度不均匀度指标的增大逐渐减小。通过分析四桶基础的各单向承载力、对应的破坏模式和群效应系数,定义了四桶基础的最优桶间距,可为四桶基础桶间距的优化设计提供依据。 相似文献
18.
In this study, two different approaches are proposed to determine the ultimate bearing capacity of shallow foundations on granular soil. Firstly, an artificial neural network (ANN) model is proposed to predict the ultimate bearing capacity. The performance of the proposed neural model is compared with results of the Adaptive Neuro Fuzzy Inference System, Fuzzy Inference System and ANN, which are taken in literature. It is clearly seen that the performance of the ANN model in our study is better than that of the other prediction methods. Secondly, an improved Meyerhof formula is proposed for the computation of the ultimate bearing capacity by using a parallel ant colony optimization algorithm. The results achieved from the proposed formula are compared with those obtained from the Meyerhof, Hansen and Vesic computation formulas. Simulation results showed that the improved Meyerhof formula gave more accurate results than the other theoretical computation formulas. In conclusion, the improved Meyerhof formula could be successfully used for calculating the ultimate bearing capacity of shallow foundations. 相似文献
19.
非均质地基承载力及破坏模式的FLAC数值分析 总被引:3,自引:0,他引:3
利用基于Lagrangian显式差分的FLAC算法,通过数值计算,对黏结力随深度线性增长的非均质地基上条形基础和圆形基础的极限承载力及地基破坏模式进行了对比计算与系统分析。研究表明:(1)随着地基黏结力沿深度非均匀变化系数的增大,地基的破坏范围逐渐集中在地基表层和基础两侧:(2)即使地基的非均质程度较小,当将非均质地基近似地按均质地基考虑时,由此所估算的承载力可能过于保守;(3)地基承载力系数随黏结力沿深度非均匀变化系数的增大而非线性地增大。与数值解相比,skempton与Peck等近似公式均可能高估了非均质地基承载力。 相似文献
20.
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