层状饱和土体中排桩对简谐荷载隔振效果分析

根据Biot理论,利用已有的传递、透射矩阵法得到层状饱和土体内部受竖向圆形分布荷载作用下的基本解,再由Muki虚拟桩法,建立了频域内层状土-桩的第二类Fredholm积分方程。通过离散方法求解积分方程,得到了评价隔振效果的振幅比。与已知文献结果比较,验证了方法的正确性。数值结果表明：对于同种类型的振源,采用相同的隔振系统,在上软下硬的多层土体中的隔振效果比在上硬下软的土层中要好。采用较长的桩或刚度较大的桩,或桩之间的距离加密都可得到好的隔振效果。     

饱和土体中排桩对移动荷载的被动隔振效果分析

利用Muki和Sternberg的虚拟桩法,研究了饱和土体地基中排桩对移动荷载引起振动的被动隔振效果。隔振桩作为一维杆,饱和土体满足Biot理论。利用已有的移动荷载作用下的饱和土体的自由波场解及饱和土体内部受竖向圆形分布荷载作用下的基本解,建立了频域内土-桩的第2类Fredholm积分方程。通过Fourier逆变换得到时间域内评价隔振效果的振幅比。与已知文献结果相比较,验证了方法的正确性。数值结果表明,荷载速度对排桩的隔振效果有一定影响,即在相同隔振系统情况下,单排桩对低速荷载引起振动的隔振效果比高速移动荷载效果好。同时,较高速时的最佳桩长比低速时要短。     

Poroelastic model for pile–soil interaction in a half‐space porous medium due to seismic waves

In this paper, frequency domain dynamic response of a pile embedded in a half‐space porous medium and subjected to P, SV seismic waves is investigated. According to the fictitious pile methodology, the problem is decomposed into an extended poroelastic half‐space and a fictitious pile. The extended porous half‐space is described by Biot's theory, while the fictitious pile is treated as a bar and a beam and described by the conventional 1‐D structure vibration theory. Using the Hankel transformation method, the fundamental solutions for a half‐space porous medium subjected to a vertical or a horizontal circular patch load are established. Based on the obtained fundamental solutions and free wave fields, the second kind of Fredholm integral equations describing the vertical and the horizontal interaction between the pile and the poroelastic half‐space are established. Solution of the integral equations yields the dynamic response of the pile to plane P, SV waves. Numerical results show the parameters of the porous medium, the pile and incident waves have direct influences on the dynamic response of the pile–half‐space system. Significant differences between conventional single‐phase elastic model and the poroelastic model for the surrounding medium of the pile are found. Copyright © 2007 John Wiley & Sons, Ltd.     

移动荷载作用下饱和土中单桩的动力响应

根据Biot动力理论,采用Fourier和Hankel变换方法得到了半空间饱和土受移动载荷及土体内受垂直简谐载荷作用下频域内基本解。根据虚拟桩法,得到了移动载荷作用下桩基的第2类Fredholm积分方程,并应用IFFT方法得到时间、空间域内单桩的动力响应。数值结果表明,移动荷载会引起桩身的负摩擦力;桩身最大轴力、孔压随移动荷载速度增加而增大;此外,在桩上端部会出现孔压集中现象。     

排桩对柱面SH波散射问题研究：解析求解

采用波函数展开法结合Graf加法定理,利用桩体与土体之间的位移和应力连续边界条件,给出了全空间单排桩对柱面SH波散射解析解,并采用傅里叶逆变换,求得时域结果。该方法考虑了入射波曲率的影响,在频域内分析了柱面SH波入射时排桩散射的频谱规律,给出了时域排桩柱面SH波散射位移云图,讨论了桩数与桩间距对柱面SH波入射时排桩散射的影响。研究表明：在振源距排桩较近（d/a=10）时,低频段（η=0~1.0）排桩对柱面SH波的隔离作用显著;振源距排桩较远时,各频段排桩对柱面SH波的隔离作用均较为显著。桩间距固定时,增加桩数,排桩后方首次出现的最大位移响应相应减小,排桩散射的影响范围随之增大;对柱面SH波进行阻隔时,为提高阻隔效率的同时节约成本,不仅需要考虑桩数,还应考虑波源与桩体、桩间空隙相对位置的影响;排桩分布宽度固定时,由于入射波曲率对排桩散射的影响,减小桩间距,排桩后方首次出现的最大位移响应有可能会出现放大的情况,故应采用合理的桩间距对柱面SH波进行阻隔。     

Dynamic responses of a pile embedded in a layered poroelastic half‐space to harmonic lateral loads

A single pile embedded in a layered poroelastic half‐space subjected to a harmonic lateral load is investigated in this study. Based on Biot's theory, the frequency domain fundamental solution for a horizontal circular patch load applied in the layered poroelastic half‐space is derived via the transmission and reflection matrices method. Utilizing Muki and Sternberg's method, the second kind of Fredholm integral equation describing the dynamic interaction between the layered half‐space and the pile subjected to a top harmonic lateral load is constructed. The proposed methodology is validated by comparing results of this paper with some existing results. Numerical results show that for a two‐layered half‐space, the thickness of the upper softer layer has pronounced influences on the dynamic response of the pile and the half‐space. For a three‐layered half‐space, the presence of a softer middle layer in the layered half‐space will enhance the compliance for the pile significantly, while a stiffer middle layer will diminish the dynamic compliance of the pile considerably. Copyright © 2009 John Wiley & Sons, Ltd.     

周期分布桩体对平面SH波隔振效应的解析求解

将排桩对平面SH波的隔振简化为弹性波散射的二维平面问题,基于全空间中无限周期结构的周期特性,给出了一种求解无限周期分布桩体对平面SH波隔振效应的解析方法。该方法采用波函数展开法并结合Graf加法定理,利用全空间中相邻周期单元的散射波场在频域内相差一个相位的特性,仅选取一个周期单元,将入射波场和所有散射波场的贡献叠加后,根据边界条件求解待定系数,从而求得整个散射波场。该解析解能够精确求解无限周期分布桩体的散射问题,分析周期分布桩体数量较多时的隔振规律,弥补了以往理论分析中桩体个数较多时难以求解的不足。重点讨论了桩体个数、桩体刚度、桩体间距和桩体类型等因素对隔振效果的影响,结果表明：（1）该方法显著降低了求解大量桩体问题时的存储量和计算量,有限周期模型计算结果随桩体个数增多收敛于无限周期模型,反映了该方法的正确性;（2）整体上桩体刚度增大有利于提高隔振效果,但桩体刚度对隔振效果的提升有限,桩体剪切波速为土体5倍时已具有足够的隔振效果;（3）桩间距对隔振效果有着直接影响,间距越小则低频禁带宽度越大;（4）桩体类型对隔振效果有着显著影响,实心桩有着良好的隔振效果,而具有柔性内填充的管桩在低频段有着更佳的隔振效果。     

荷载作用下挤扩支盘桩支护特性数值模拟分析

采用室内试验和数值分析相互验证方法,对单排挤扩桩和悬臂直桩基坑支护的桩顶位移和受力特征进行了研究,进而对基坑双排挤扩桩支护特性进行了分析。试验结果表明,与悬臂直桩相比,挤扩桩支护桩顶位移小,挤扩桩支盘提供的抗倾覆力矩有效地改善了挤扩桩的工作性状;与单排挤扩桩相比,双排挤扩桩基坑支护结构刚度大,在桩身内力分配以及控制基坑变形等方面有较大优势,是深基坑工程中经济合理的支护形式。     

Expanded superposition method for impedance functions of inclined‐pile groups

This paper presents a superposition method expanded for computing impedance functions (IFs) of inclined‐pile groups. Closed‐form solutions for obtaining horizontal, vertical, and rocking IFs, estimated by using pile‐to‐pile interaction factors, are proposed. IFs of solitary inclined piles, crossed IFs, and explicit incorporation of compatibility conditions for pile‐head movements are also appropriately taken into consideration. All of these factors should be known in advance and will be computed and shown for the most relevant cases. The accuracy of the proposed closed‐form solutions is verified for 2 × 2 and 3 × 3 square inclined‐pile groups embedded in an isotropic viscoelastic homogeneous half‐space soil medium, with hysteretic damping. The pile‐to‐pile interaction factors are computed by means of a three‐dimensional time‐harmonic boundary elements–finite elements coupling formulation. The results indicate that the IFs obtained from the proposed method are in good agreement with those obtained from the coupling formulation. Furthermore, crossed vertical‐rocking IFs of solitary piles need to be appropriately considered for obtaining rocking IFs when the number of piles is small. Copyright © 2015 John Wiley & Sons, Ltd.     

积分方程法研究均质地基中单桩的工程性状

采用积分变换方法求解弹性半空间中圆形荷载的基本解,按照虚拟桩法建立分析模型,基于圆形荷载的基本解推导出单桩分析的第二类Fredholm积分方程,对其进行数值计算求得桩身各点处的轴力、剪力和位移等,与经典的弹性解答相比,本文的理论更为严密.通过对单桩的荷载传递、沉降特性以及临界桩长等问题的参数分析,得出一些具有工程应用价值的结论.     

层状地基中基于Laplace变换的桩基横向振动阻抗计算

基于Laplace变换,对层状地基中桩土横向振动阻抗计算问题进行了研究。考虑土层天然分层的特性及桩顶轴向力的参与作用,结合频域内桩-土动力文克尔理论,采用传递矩阵法并通过拉普拉斯变换,将振动微分方程变成代数方程以求解桩的横向振动响应参数,并导出了单桩横向振动阻抗。基于所得解,进一步计算出桩-土-桩水平动力相互作用因子。通过实例分析对比,验证其有效性和可行性。该方法计算工作量小,易于理解,计算结果与已有结果具有良好的一致性,并能保证解的连续性,对桩-土动力相互作用的研究具有一定的实用意义。     

基于复合抗滑桩模型加固边坡稳定性分析

数值分析方法能够同时考虑抗滑桩的受力行为及加固边坡稳定性,是研究抗滑桩加固边坡稳定性的重要手段。但在数值模拟计算中,尚未形成一种建模易、精度高和计算快的抗滑桩数值模拟模型。因此,提出一种复合单元抗滑桩模型,基于该模型系统研究抗滑桩顶部自由和固定约束条件下,不同桩位、间距等设计参数对抗滑桩加固边坡效果的影响以及抗滑桩潜在失效模式,研究结果表明,复合单元抗滑桩模型可以真实地模拟桩的力学性能,计算精度高且计算结果不受单元网格疏密的影响。抗滑桩布置在边坡中部时,加固边坡安全系数最大,越靠近边坡两端,加固边坡安全系数越小。当桩间距S≤3D时,边坡潜在滑面被分为两个独立部分,桩间土形成明显应力拱,当桩间距S≥4D时,桩间中心土体塑性剪切带完全贯通,桩间土体形成反向应力拱。桩顶自由和固定约束时,抗滑桩分别布置在边坡中部(Lx/L=0.5)和边坡中下部(Lx/L=0.3)时,抗滑桩易发生弯曲破坏。研究结果对抗滑桩加固边坡工程设计具有指导意义。     

Integral equation method for analysis of piled rafts with dissimilar piles under vertical loading

In a piled raft, the length and arrangement of piles has a significant effect on the stresses and deflections of the raft. The use of piles with different dimensions and properties below a raft is an innovative concept and can optimize the design of a piled raft. In this study, an integral equation method with a fictitious pile model was adopted to analyze the piled raft foundation with dissimilar piles. The Fredholm integral equations of the second kind were obtained for this problem. The loads shared by piles and subsoil, the load transfer, and the settlement of the piled raft were obtained using numerical calculation. The results from the present method were compared with those in the literature. An optimization technique was introduced to design piled rafts with dissimilar piles. The stiffening effect of piles on the surrounding soil is also discussed as compared the conventional interaction factor approach.     

Influence of a point sink on a pile group in saturated multilayered soils with anisotropic permeability

The behavior of a pile group is solved using the finite element method, and the fundamental solution of saturated multilayered soils with anisotropic permeability is obtained by the analytical layer element method. Based on the supposition of no slip occurring at the pile‐soil interface, the governing equations of the interaction between the pile group and the soils due to a point sink are established in the Laplace‐Hankel transformed domain by considering the pile‐soil compatibility condition. Numerical results are presented to study the effect of point sink pumping, the properties of soils, and the geometries of piles on the behavior of the pile group.     

Vertical response of pile raft foundations subjected to tunneling‐induced ground movements in layered soil

A simplified analysis method has been developed to estimate the vertical movement and load distribution of pile raft foundations subjected to ground movements induced by tunneling based on a two‐stage method. In this method, the Loganathan–Polous analytical solution is used to estimate the free soil movement induced by tunneling in the first stage. In the second stage, composing the soil movement to the pile, the governing equilibrium equations of piles are solved by the finite difference method. The interactions between structural members (such as pile–soil, pile–raft, raft–soil, and pile–pile) are modeled based on the elastic theory method of a layered half‐space. The validity of the proposed method is verified through comparisons with some published solutions for single piles, pile groups, and pile rafts subjected to ground movements induced by tunneling. Good agreements between these solutions are demonstrated. The method is also used for a parametric study to develop a better understanding of the behavior of pile rafts influenced by tunneling operation in layered soil foundations. Copyright © 2011 John Wiley & Sons, Ltd.     

格林函数表象积分对打桩排水的计算

在动力作用下饱和桩周土排水会对基桩工程性质产生很大影响,研究桩-土动力作用的排水计算很有必要。通过连续介质力学方法,利用两相饱和介质Biot动力方程固相与流相频域格林函数解答,结合排水状态Lamb表象积分,得到集中力作用下饱和土圆柱基桩排水量计算公式。按该公式计算了江苏省金坛市开发区联合中策橡胶项目基地在打桩施工中基桩的理论排水量,并与现场实测排水量对比,发现计算与实际测试的排水量相对误差较小,实际工程桩测试的平均每击排水量期望值为4.82 L,与计算排水量相对误差为34%。可以认为,该方法用于动力作用下饱和土基桩排水计算是合适的。但由于计算是在桩-土弹性系统的假定下进行的,没有考虑土的非线性变形影响,有待于进一步研究,使其更加符合实际。     

Dynamic analysis of an axially loaded pile embedded in elastic-poroelasitc layered soil of finite thickness

This paper presents an analytical solution for determining the dynamic characteristics of axially loaded piles embedded in elastic-poroelastic layered soil of finite thickness. The interface between the elastic and poroelastic soil coincides with the groundwater table level, which is explicitly taken into account in the solution. The pile is modelled as elastic one-dimensional rod to account for the effect of its dynamic characteristics on the response of the soil-pile system. The solution is based on Biot's poroelastodynamic theory and the classical elastodynamic theory, which we use to establish the governing equations of the soil and pile. Accordingly, the pile base resistance, shaft reaction, and the complex impedance of soil-pile system are obtained using the method of Hankel integral transformation. Following the validation of the derived solution, we identify the main parameters affecting the vertical dynamic impedance of the pile via a parametric study. The presented method poses as an efficient alternative for quickly estimating the dynamic characteristics of axially loaded piles, without having to resort to complex numerical analyses.     

Analysis of pile groups in a poroelastic medium subjected to horizontal vibration

This work investigates the dynamic response of pile groups embedded in a poroelastic medium subjected to horizontal loading. The dynamic response is analyzed using the Muki and Sternberg Method. The load transfer problem is formulated in terms of a second-kind Fredholm integral. The dynamic impedance of the pile groups is computed using the pile–soil–pile dynamic interaction factors. The shear force, bending moment and pore pressure is obtained using the superposition method. Numerical results indicate that the pile flexibility ratio and the pile distance have considerable influence on the dynamic response of the piles and the poroelastic medium.     

加筋效应对群桩相互作用系数的影响

群桩相互作用系数通常是采用平面应变模型进行分析,其研究方法具有较多的近似性。基于更为严格的虚拟桩模型,应用群桩相互作用的积分方程解答,以两桩相互作用的基本模型为例,研究加筋效应对群桩相互作用的影响。与弹性理论法和Mylonakis & Gazetas解答的对比表明,加筋效应对群桩相互作用系数有着较为明显的影响,并指出Mylonakis & Gazetas基于剪切位移法所得解答中存在的一些主要问题。     

瞬态横向振动桩的Winkler参数

应用Fourier变换,推导了瞬态横向振动桩桩周土阻力在频率域中的Baranov公式,并得到瞬态横向振动桩Winkler参数k和c的表达式。该式因计算复杂不便于桩瞬态横向振动的计算,笔者应用Hankel函数渐近展开式得到k和c的简化式。对桩的瞬态横向振动的计算表明,简化式的精度满足要求,且大大提高了计算速度。