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为研究抗滑桩合理桩间距以及荷载传递机制,首先以桩侧摩阻力为拱脚时的破裂面推导出以桩身为拱脚时的破裂角计算公式;然后引入对数螺旋线法确定桩间土体的滑移深度,以土拱效应为基础建立计算模型,求解考虑桩间土体滑移深度的合理桩间距表达式;最后对桩间净距的主要影响因素进行分析,包括滑坡推力、黏聚力、桩截面宽度以及高度。研究结果表明:由桩身和桩侧摩阻力同时作为土拱拱脚更符合实际受力状态,同时求得的土拱拱圈厚度和矢高小于以桩身为拱脚条件下相应值而大于以桩侧摩阻力为拱脚条件下的相应值,并且随桩埋深的增加而增大。 相似文献
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为了解叉桩对码头抗震性能的影响作用,建立高桩码头结构动力有限元模型,以全直桩高桩码头、美国Okland港第七街高桩码头和霍华德高桩码头为算例,研究全直桩码头、叉桩承台码头、叉桩置于全直桩码头后方这三种码头结构型式的地震反应,在此基础上提出设计建议.分析结果表明,全直桩码头结构柔度大,延性好,内力分配相对均匀,可通过大变形吸收地震能量,抗震性能较好;叉桩置于码头承台时,码头结构刚度相对较大,使叉桩节点易于发生破坏;叉桩置于全直桩码头后方时,叉桩可阻挡部分地震波的传播,降低码头结构刚度,减小码头桩周土弱化程度,全直桩码头结构的抗震性能显著提高. 相似文献
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采用三维弹塑性有限元方法,研究了PCC桩群桩在水平荷载作用下的工作性状。比较了PCC桩群桩和等截面实心圆形桩群桩的水平承载力和群桩效率,得到了PCC桩纵、横向群桩效应的临界桩距;分析了桩距、桩数、桩顶约束条件对PCC桩群桩效率的影响。研究表明,PCC单桩和群桩的水平承载力都较等截面实心圆桩大;PCC桩纵、横向群桩效应的临界桩距分别约为外径的7.4倍和2.8倍;桩距愈小、桩数愈多,PCC桩群桩效率愈小,当设计桩距小于临界桩距时,应考虑群桩效应;PCC桩桩顶固接或铰接时,弯矩分布和承载力差异较大,设计中可以通过改变桩顶的约束条件来协调桩身受力性状。 相似文献
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考虑桩-弹性地基相互作用,采用集中质量法和柔度法对泥面线以上的单桩风机结构进行多自由度动力分析,确定单桩风机的自振频率。通过算例给出单桩风机的自振频率值,并与不考虑桩-弹性地基相互作用的单桩风机的自振频率值进行比较。 相似文献
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《地震工程与工程振动》2016,(3)
在考虑大直径桩尺寸效应及桩端土应力扩散效应情况下,进行了非均质土中大直径桩的纵向振动研究。利用Rayleigh-Love杆理论,考虑大直径桩桩身的横向惯性效应;引入扩散虚土桩模型模拟桩端土对桩身的支承作用;桩侧土考虑径向非均质,采用复刚度传递多圈层平面应变模型——以此建立桩-土耦合振动系统的简化模型。结合边界条件、初始条件和连续条件,推导得出大直径桩桩顶速度的频域解析解和时域半解析解。通过各种工况下相关参数对桩顶动力响应的影响分析,得出非均质土中大直径桩的振动规律。 相似文献
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浆固碎石柱是一种新型的桩基技术,已成功应用于铁路、高速公路等工程中。但由于浆固区的存在,浆固碎石桩荷载传递机理的复杂性制约了其发展和工程应用。荷载传递分析法是桩荷载传递机理分析的重要方法之一。本文采用线性弹塑性和双折线传递函数,分别模拟桩侧土体的非线性和桩端土的硬化特性,同时考虑浆固区存在对桩荷载传递的影响,推导出一种浆固碎石桩单桩荷载传递分析方法。最后,通过对工程实例进行计算,验证了本文计算方法的实用性。结果表明,浆固碎石桩除具有一般刚性桩的桩体置换作用外,浆固区的存在对提高浆固碎石柱承载力、减小沉降量也有着重要作用。 相似文献
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在实际工程分析中用有限元法模拟无限域需要考虑很大一部分桩周土体来保证计算的精度,从而导致计算量的增大,同时对计算机的要求也很高。特别是对于大规模的群桩问题,有限元的计算工作量使一般的计算机无法满足其要求,这就限制了其在实际工程中的应用。本文基于叠加原理用有限元法计算桩-桩位移相互作用系数,不仅能减少群桩的计算量,又能提高计算精度。 相似文献
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基于简化的群桩动力计算模型,采用有限元子结构方法和薄层法,提出了与工程实际情况更为接近的完全埋入、部分埋入群桩和刚性桩筏基础的计算方法。分析了层状地基中不同激振频率条件下,承台板厚度、桩间距对于群桩动力阻抗的影响,研究了不同承台板厚度条件下群桩阻抗的分布规律。通过与传统刚性承台下群桩动力特性的比较分析,验证了本模型的合理性。 相似文献
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弹性波反射法在桩基检测中的理论与应用 总被引:1,自引:0,他引:1
根据波动理论探讨了弹性波在砼桩中的传播衰减规律及反射特征,提出了判断桩基质量的有关理论依据,并结合工程实例应用弹性波反射法讨论了时域、频域分析法的基本原理及存在问题. 相似文献
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Raked piles are believed to behave better than vertical piles in a laterally flowing liquefied ground. This paper aims at numerically simulating the response of raked pile foundations in liquefying ground through nonlinear finite element analysis. For this purpose, the OpenSees computer package was used. A range of sources have been adopted in the definition of model components whose validity is assessed against case studies presented in literature. Experimental and analytical data confirmed that the backbone force density–displacement (p–y) curve simulating lateral pile response is of acceptable credibility for both vertical and raked piles. A parametric investigation on fixed-head piles subject to lateral spreading concluded that piles exhibiting positive inclination impart lower moment demands at the head while those inclined negatively perform better at liquefaction boundaries (relative to vertical piles). Further studies reveal substantial axial demand imposed upon negatively inclined members due to the transfer of gravity and ground-induced lateral forces axially down the pile. Extra care must be taken in the design of such members in soils susceptible to lateral spreading such that compressive failure (i.e. pile buckling) is avoided. 相似文献
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Based on the theory of tube wave propagation in a fluid-filled borehole, this paper proposes a new method for detecting the integrity of pile foundation and overcomes some limitations of the existing pile integrity tests. The basic principle of detecting the pile integrity by the tube wave, testing equipment and concrete quality evaluation of piles are introduced. The feasibility of the tube wave detection for geological exploration of a bridge pile in a karst development area is verified by field tests. Through some test cases of prestressed high strength concrete pipe piles, cast-in-place piles and rock-socketed piles with defects, the accuracy of the tube wave detection and other methods is compared. Then, some issues of the application of the tube wave for detecting pile defects are discussed. Finally, the content of this paper is summarized, and some suggestions on further research are put forward. 相似文献
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Numerical modeling of local scour of non-uniform graded sediment for two arrangements of pile groups
A three-dimensional(3D) non-hydrostatic numerical model is established to investigate local scour around four aligned circular piles in uniform and non-uniform sediment mixtures and to provide information for improving scour countermeasures design. In the current study, unsteady Reynolds averaged Navier-Stokes(URANS) equations along with a Re-normalization Group(RNG) k-ε model were applied to simulate the flow field. A non-uniform sediment transport model was applied to estimate the bedload tran... 相似文献
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This paper presents the results of a large-scale shake table test at E-Defense facility on a pile group located adjacent to a gravity-type quay wall and were subjected to liquefaction-induced large ground displacements. Extensive liquefaction-induced large ground lateral spreading displaced the quay wall about 2.2 m and damaged the pile foundation. The pile foundation consisted of a six-pile group which supported a footing and a superstructure model. Large lateral soil displacements were measured by several sensors such as inclinometers and the results favorably agreed with the directly observed deformations. Soil lateral displacement decreased as the distance from the quay wall increased landward. The piles were densely instrumented and the measured bending strain records were able to explain the damage to the piles. Lateral pressures of the liquefied soil exerted on the piles were measured using earth pressure (EP) sensors. The application of two design guidelines (JRA [1] and JSWA [2]) for estimation of liquefaction-induced lateral pressure on piles is discussed and their advantages and shortcomings are addressed. Furthermore, two simplified methods (Shamoto et al. [3] and Valsamis et al. [4]) are employed to predict the extent of liquefaction-induced large ground displacements and they are compared to the measured deformations. Finally, their accuracy for predicting the liquefaction-induced lateral displacements is evaluated and practical recommendations are made. 相似文献
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Kazuo Konagai Yuanbiao Yin Yoshitaka Murono 《Soil Dynamics and Earthquake Engineering》2003,23(3):31-39
Most laterally loaded piles are flexible in the sense that they are not deformed over their entire lengths. Instead, pile deflections become negligible below an ‘active pile length’ La. This La is an important parameter that governs the overall behavior of a rigidly capped pile group. In the present approach, piles closely grouped together beneath a superstructure are viewed as a single equivalent upright beam whose stiffness matrix determines La. This idea is verified for different cases of pile spacing, and is further extended for nonlinear behavior of soils surrounding grouped piles. 相似文献
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In this paper the kinematic seismic interaction of single piles embedded in soil deposits is evaluated by focusing the attention on the bending moments induced by the transient motion. The analysis is performed by modeling the pile like an Euler–Bernoulli beam embedded in a layered Winkler-type medium. The excitation motion is obtained by means of a one-D propagation analysis. A comprehensive parametric analysis is carried out by varying the main parameters governing the dynamic response of piles like the soil properties, the bedrock location, the diameter and embedment in the bedrock of piles. On the basis of the parametric analysis, a new design formula for predicting the kinematic bending moments for both the cross-sections at the deposit–bedrock interface and at the pile head is proposed. 相似文献
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Interpretation from large-scale shake table tests on piles undergoing lateral spreading in liquefied soils 总被引:2,自引:0,他引:2
M. Cubrinovski T. Kokusho K. Ishihara 《Soil Dynamics and Earthquake Engineering》2006,26(2-4):275-286
Results from a benchmark test on full-scale piles are used to investigate the response of piles to lateral spreading. In the experiment, two single piles, a relatively flexible pile that moves together with the surrounding soil and a relatively stiff pile that does not follow the ground movement have been subjected to large post-liquefaction ground displacement simulating piles in laterally spreading soils. The observed response of the piles is first presented and then the results are used to examine the lateral loads on the pile from a non-liquefied soil at the ground surface and to evaluate the stiffness characteristics of the spreading soils. The measured ultimate lateral pressure from the crust soil on the stiff pile was about 4.5 times the Rankine passive pressure. The back-calculated stiffness of the liquefied soil was found to be in the range between 1/30 and 1/80 of the initial stiffness of the soil showing gradual decrease in the course of lateral spreading. 相似文献