现浇薄壁管桩低应变动力检测适应性探讨

现浇薄壁管桩是一种大直径的管桩,在低应变检测时必然存在平截面假定不满足以及桩头三维效应的问题。无桩帽管桩低应变检测时由于激发了非轴对称的弯曲模态,并不是达到一定的深度平截面假定就会满足,各截面不同的点会受到不同程度的高频干扰,桩顶90°点受到了较小的高频干扰,低应变检测时激振点与传感器夹角为90°时更容易得到清晰的反射波信号。解析解和有限元解的结果均表明,带帽桩在桩帽的动力响应信号能看到明显的桩底反射和缺陷反射时距离桩心不同点上所感受的高频干扰的频率一样,速度振幅不同,距桩心0.50 （ 为桩半径）的点受到最小的干扰。     

低应变下变阻抗薄壁管桩动力响应频域解析解

管桩低应变完整性检测时,桩顶一点受到瞬态集中荷载的作用,其动力响应问题是一个三维波动问题。基于三维波动理论,建立了任意段变阻抗薄壁管桩动力响应的计算模型和波动方程,结合初边值条件,采用Laplace变换法求得了该波动方程的频域解析解,采用Fourier逆变换求得了时域响应。将计算结果与三维有限元结果进行了对比分析,解析解的计算结果和三维有限元结果较为接近,两者在入射波峰、缺陷反射峰和桩底反射峰处都较为吻合,两种方法位移响应曲线基本相同。给出了桩顶不同点的动力响应,并探讨了高频干扰问题。对变截面桩和变模量桩的动力响应特性进行了分析。     

基于径向不变假定的现浇大直径管桩纵向振动响应频域解

假定各物理量沿径向不变化,建立了低应变瞬态集中荷载作用下现浇大直径管桩振动响应的计算模型和波动方程。采用Laplace变换法,求得了波动方程的频域解析解,采用Fourier逆变换求得了时域响应。将文中解计算结果与三维频域解析解进行了对比分析,文中解的入射峰-反射峰时间差与三维频域解差别很小,说明对于PCC桩这种大直径薄壁管桩,采用径向不变假定对计算结果几乎没有影响。因此,在PCC桩低应变检测波形分析时,采用基于径向不变假定的二维解是完全合理的。将文中二维频域解的计算结果与二维时域解的结果进行了对比分析,结果表明,2种解在入射波、第一个桩底反射波、第二个桩底反射波峰值大小和到达时间非常吻合,这说明考虑环向位移与否对计算结果没有太大的影响,研究PCC桩低应变动力响应的问题时忽略水平方向的位移是完全可以的。     

基桩低应变法三维干扰最小点位置的影响因素及确定方法

通过工程实测信号和数值模拟分析,证明了瞬态集中荷载敲击下,桩顶三维干扰速度信号的强度沿径向先递减后递增,存在干扰最小点,并对比了不同学者提出的干扰最小点位置处的信号。参数分析表明,三维干扰最小点的位置与桩径、桩长、荷载脉宽、桩身混凝土弹性模量、土层剪切波速及土层泊松比等桩、土参数几乎无关,但与桩身混凝土泊松比密切相关,且泊松比越大,干扰最小点的位置越靠近桩中心。给出了干扰最小点位置与桩身混凝土泊松比之间的函数表达式,可方便应用于实际工程。     

黏弹性地基中PCC桩扭转振动响应解析方法研究

考虑土体材料的黏性阻尼和桩-土扭转耦合振动,把桩看作一维杆,将土体视作三维轴对称黏弹性介质,对黏弹性地基中现浇混凝土大直径管桩（简称PCC桩）扭转振动频域特性进行了理论研究,采用Laplace变换和分离变量的方法求得了桩顶扭转频域响应解析解。将所得解完全退化到实心桩的解,并与经典平面应变解进行对比,验证了解析解的合理性。分析了桩长以及土体黏性阻尼系数对桩顶速度导纳和复动刚度的影响,得到了各参数对桩扭转振动特性影响的规律。分析表明：桩周土黏性阻尼系数增大可以显著提高桩顶扭转复动刚度和减小速度导纳振荡幅值,而桩芯土黏性阻尼系数的影响不明显;桩长越长,桩顶复动刚度越大,速度导纳振荡幅值越小,但当桩长增大到一定程度时,再继续增加桩长,桩顶复动刚度基本没有改变。     

轴对称径向非均质土中单桩纵向振动特性研究

为了分析径向非均质土中单桩纵向振动特性,基于复刚度传递径向多圈层并采用黏性阻尼模型描述桩周土材料阻尼,建立了三维轴对称径向成层非均质土体中桩基纵向振动简化分析模型。采用Laplace变换和复刚度传递方法,递推得出桩周土体与桩体界面处复刚度,进而利用桩-土完全耦合条件推导得出桩顶动力阻抗解析解,并将所得解退化到均质土情况,与已有解答进行比较验证其合理性。在此基础上对桩基纵向振动特性进行参数化分析,计算结果表明：桩周土体阻尼系数、桩底土阻尼因子仅对桩顶动力阻抗曲线振幅有较明显的影响,而桩底土刚度因子对桩顶动力阻抗曲线振幅及共振频率均有显著影响;桩周土软（硬）化程度越高（低）,桩顶动力阻抗曲线振幅越大（小）;桩周土软（硬）化范围越大,桩顶动力阻抗曲线振幅水平越高（低）;但桩周土软（硬）化程度、软（硬）化范围对桩顶动力阻抗曲线共振频率影响则可忽略。     

轴对称均匀黏弹性地基中现浇薄壁管桩竖向动力响应简化解析方法

考虑土体材料的黏性阻尼和桩-土纵向耦合振动,建立了轴对称均匀黏弹性地基中现浇薄壁管桩管桩纵向振动的定解问题,采用Laplace变换的方法求得了解析解。对一算例进行了分析,将计算结果与实测波形和有限元进行了对比,三者吻合较好。进一步分析了桩周土和桩芯土黏性阻尼系数对桩顶速度导纳和复动刚度的影响以及桩底土阻尼系数对桩顶速度导纳的影响,得到了各参数对桩纵向振动特性影响的规律     

竖向入射S波作用下单桩水平地震响应简化解析方法

基于连续介质模型并考虑桩-土运动相互作用,将单桩视为一维线弹性梁,研究了竖向入射S波作用下的单桩水平地震响应问题。将竖向入射S波模拟为基岩水平位移,基于平面应变模型建立的土体控制方程,推导出地震作用下土体水平动力阻抗函数表达式。将土体阻抗代入单桩控制方程并联立桩-土接触条件及桩顶和桩底的边界条件,得出了竖向入射S波作用下单桩的地震响应解析解。通过将所得解与已有文献理论解和有限元结果进行对比,验证了该方法的合理性。基于所得理论解进行参数分析得出：桩-土模量比的增加可以明显降低桩-土运动相互作用因子的最小值,而较大桩身长径比以及土体滞回阻尼对桩-土运动相互作用因子的影响较小;对于桩顶水平地震放大因子来说,桩-土模量比的增加仅在高共振频率处抑制其幅值,较大桩身长径比对其影响较小,而滞回阻尼比的增加会显著抑制共振频率处的幅值;桩身地震响应仅在较小桩径比时受桩-土模量比的影响明显,并随桩-土模量比的增加而降低。     

敲击-回波法中传感器影响的小波分析

在基桩及结构物质量的敲击-回波法检测过程中,由传感器采集的信号里除反映了被测点的速度响应外,还总是含有传感器固有特性引起的成份。首先利用数值模拟软件FLAC3D对不含传感器的桩顶速度响应进行数值模拟,再与传感器特性进行合成,得到含有传感器特性的桩顶速度响应;然后利用小波分析,研究了传感器对速度响应的影响;最后,提出了一种新的抑制传感器影响的方法--小波抑制法,结果表明：小波分析能有效地抑制速度响应中传感器的影响     

考虑桩顶附加质量时的单桩水平动力响应分析

基于动力Winkler模型,采用与频率相关的刚度系数和阻尼系数来模拟土对桩的动反力,得到了黏弹性地基中考虑桩顶附加质量时的单桩水平动力响应解析解。研究了桩土模量比、桩体长径比以及激振频率对桩基动力响应的影响。分析表明,当考虑桩顶附加质量时,桩体位移总体上有减小的趋势;无量纲频率对桩体水平位移的影响程度要远远大于不考虑桩顶附加质量时的情况。     

An analytical solution for wave propagation in a square pile due to transient point load

This paper presents an analytical solution for wave propagation in a square pile due to transient point load. The differential equation of dynamic equilibrium is established considering propagation of waves in both vertical and transverse directions. The soil resistance is simulated by Voigt model. The three-dimensional analytical solution is deduced by using Fourier transform and the separation of variable method. The arithmetical results of the proposed solution show that the velocity responses along the radial direction at the pile top are highly non-uniform. In addition, Young’s modulus and the pile side length exert undisputable influences on the velocity responses.     

Numerical modelling of the driving response of thin‐walled open‐ended piles

The driving response of thin‐walled open‐ended piles is studied using numerical simulation of the wave propagation inside the soil plug and the pile. An elastic finite element analysis is carried out to identify the stress wave propagation in the vicinity of the pile toe. It is found that the shear stress wave has the highest magnitude above the bottom of the soil plug. Below the bottom of the soil plug, the vertical stress wave has the highest magnitude. Although the shear stress wave propagating in the radial direction is similar in magnitude to the vertical stress wave at the bottom of the soil plug, it decays rapidly while travelling downwards. The highest vertical stress at the bottom of the soil plug appears after the vertical stress wave interacts with the shear stress wave travelling in the radial direction. Initially, the vertical stress wave propagates with the dilation wave velocity in both the radial and vertical directions. After it interacts with the shear stress wave, the vertical stress wave starts to propagate with the shear wave velocity in the radial direction and with the axial wave velocity downwards. It is concluded that at the bottom of the soil plug, the interaction between the waves travelling in radial and vertical directions is important. The capabilities of several one‐dimensional pile‐in‐pile models to reproduce the driving response given by a two‐dimensional axisymmetric finite element model is studied. It is seen that when the base of the soil plug fails, a one‐dimensional pile‐in‐pile model can be used to achieve results in agreement with the finite element model. However, when the pile is unplugged, where the base of the soil plug does not fail, a reduced finite element mesh that permits the radial wave propagation inside the soil plug must be used. Copyright © 2001 John Wiley & Sons, Ltd.     

Time-domain analysis of velocity waves in a pipe pile due to a transient point load

The propagation of stress waves in a pipe pile subjected to a transient point load cannot be expressed using traditional one-dimensional (1D) wave theory. This paper presents an analytical solution used to investigate the wave propagation in a pipe pile under an axial point load. The soil resistance is simulated using the Winkler model, and the excitation force is simulated with a semi-sinusoidal impulse. A time-domain analytical solution for the three-dimensional wave equation is derived using the separation of variables and variation of constants methods. The solution is verified with a frequency domain analytical solution in which the time-domain response is calculated by numerical Fourier inverse transformation. Furthermore, the solution proposed in this paper is compared with the results of model testing and 3D FEM analysis. The comparisons show that the analytical solution proposed in this study agrees well with the results of previous studies. The proposed solution is subsequently applied in case studies. The vertical velocity responses in the circumferential and axial directions are analyzed to reveal the propagation characteristics of transient waves in the pipe pile. Moreover, the effects of the location and period of the excitation force, the side and tip resistances and high-order modes are studied in detail.     

山地和岩溶地区端承桩质量检测与加固技术研究

针对嵌岩桩桩底存在沉渣时,采用常规的低应变反射波法可能观测不到其同相反射信号,桩底软弱夹层（或溶洞）的顶面倾角接近或不小于45º时,反射法检测不到桩底软弱夹层（或溶洞）的反射信号。为弥补以上不足,提出了用低应变反射波法、频率-初速度法和钻芯法对端承桩质量及缺陷桩的加固效果进行组合检测。当反射波波形曲线异常或动刚度明显偏低时,可认为桩底沉渣较厚或桩端持力层性状异常,再用钻芯法验证;建立了桩身下部缺陷段的平均波速计算公式,有助于判断缺陷的严重程度;通过对比缺陷桩加固前后的反射波曲线和动刚度值,并将它们与其他同条件下正常桩对比,检验缺陷桩的加固效果     

Vertical dynamic response of pile in a radially heterogeneous soil layer

An analysis of a pile vertical response considering soil inhomogeneity in the radial direction under dynamic loads is presented. The solution technique is based on a three‐dimensional axisymmetric model, which includes the consideration of the vertical displacement of the soil. The soil domain is subdivided into a number of annular vertical zones, and the continuity of the displacements and stresses are imposed at both the interface of pile–soil and the interfaces of adjacent soil zones to establish the dynamic equilibrium equations of the pile–soil interaction. Then, the equations of each soil zone and of the pile are solved one by one to obtain the analytical and semi‐analytical dynamic responses at the top of the pile in the frequency domain and time domain. Parametric studies have been performed to examine the influence of soil parameters' variations in the radial direction caused by the construction effect on the dynamic responses of pile. The results of the studies have been summarized and presented in figures to illustrate the influences of the soil parameters as they change radially. The effect of the radius of the disturbed soil zone caused by construction is also studied in this paper. Copyright © 2008 John Wiley & Sons, Ltd.     

弧角型PDC钻头切削齿布齿模式仿真分析

钻头在钻进复杂非均质地层时,由于其冠部形状的限制,钻头各部位切削齿受力不均匀,局部切削齿受到较大的冲击载荷,导致钻头发生“涡动”现象。为了解决上述问题,提出“多级力平衡”的切削齿周向布齿方案,通过建立全尺寸钻头破岩有限元仿真模型,分析顺时针、逆时针以及“多级力平衡”3种周向布齿模式下切削齿及钻头的受力特性。模拟结果表明:相对于顺时针和逆时针周向布齿,“多级力平衡”布齿模式下各刀翼载荷分布比较均匀,钻头的稳定性和攻击性均得到较大改善,钻头的破岩效率提高28%以上;顺时针布齿模式下钻头的侧向力最大,其稳定性相对最差;逆时针布齿模式下钻头的钻压最大,其攻击性相对较差,并且钻头的破岩效率最低。上述研究成果能够为指导PDC钻头切削齿的周向布齿设计提供理论依据。建议今后加强“多级力平衡”周向布齿模式下切削齿载荷沿钻头径向分布规律方面的研究,以指导防涡稳定PDC钻头的优化设计。      

表面波有效相速度近似分析方法

分层介质中瑞利面波有多个模态,表面瞬态响应是多个模态响应的叠加。在近场,面波模态响应传播速度随传播距离而变化;在远场,其趋于模态相速度。由分层介质表面两不同点响应互谱分析(SASW)得到的有效相速度并不对应于面波基阶模态相速度,它与波场中高阶模态能量分配比例有关。有效相速度随传播距离而变化,近场体波对有效相速度影响较大。对分层介质在简谐荷载下表面质点位移响应进行了互谱分析,得到了有效相速度理论值,通过理论值与测试值匹配分析可估算分层参数,该分析方法考虑了近场及高阶面波模态对有效相速度的影响。