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建立现浇X形桩(XCC桩)桩-土体系三维有限元模型,对XCC桩低应变检测动力响应进行数值模拟,得到完整桩和缺陷桩的桩顶速度响应结果,并分析完整桩及缺陷XCC桩桩顶速度响应特性及规律。计算结果表明:XCC桩低应变瞬态动测时桩顶速度响应存在明显的三维效应,桩心(激振点)附近点的入射波峰值较大,且到达时间较早;距离桩心越远点的入射波峰到达时间越滞后,入射波峰值从桩心到尖角边界先减小后增大。桩顶距桩心距离相同的环向上各点的入射波和反射波区别不大,而各点所受的高频干扰情况并不相同。变模量桩的入射波和完整桩相同,反射波峰值较完整桩小,反射波峰对应时间较完整桩滞后。局部缺陷桩桩顶距桩心距离相同环向各点的第一个缺陷反射波有微小差别,而第二个缺陷反射波有较大差别。 相似文献
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通过研究打桩公式法和应力波动法 (如CASE法 ) ,提出单次冲击能量及P S曲线测桩法 :用重锤或小型火箭筒一次冲击桩顶 ,用桩顶附近的检波器记录振波图和检测静、动位移 .通过实测冲击能 (总能量 )转换系数、波动和振动各自消耗的能量等各物理量 ,测定计算单桩竖向承载力 .利用振波图计算力 (P)与位移 (S)动态关系曲线 ,确定屈服点 ,并利用静载荷试验检验动测结果和确定动静P S曲线的相关常数 ,进而确定与承载力相应的沉降量 .而且 ,可由PS曲线的形态判定桩身成型质量 . 相似文献
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通过研究打桩公式法和应力波动法(如CASE法),提出单次冲击能量及P-S曲线测桩法:用重锤或小型火箭筒一次冲击桩顶,用桩顶附近的检波器记录振波图和检测静、动位移. 通过实测冲击能(总能量)转换系数、波动和振动各自消耗的能量等各物理量,测定计算单桩竖向承载力. 利用振波图计算力(P)与位移(S)动态关系曲线,确定屈服点,并利用静载荷试验检验动测结果和确定动静P-S曲线的相关常数,进而确定与承载力相应的沉降量. 而且,可由PS曲线的形态判定桩身成型质量. 相似文献
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《地震工程与工程振动》2021,41(3)
为研究动荷载作用下饱和砂土发生液化前后斜群桩的动力响应相关问题,利用土工离心机振动台进行了饱和砂土场地条件下的斜群桩物理模型试验。通过试验分别对土层响应、桩身弯矩以及桩顶承台加速度和位移等进行了详细分析,得到了如下结论:不同荷载作用下土层液化范围的改变导致了土层加速度峰值出现了不同程度的放大或缩小现象;砂土液化前后桩身动弯矩和残余弯矩对整个桩身的影响程度发生了显著变化,尤其在砂土大范围液化后残余弯矩相比动弯矩的影响明显减弱;当输入加速度峰值较小时,桩顶承台水平加速度峰值与振动台台面比较出现了明显的放大现象。而随着输入加速度峰值的增加,在振动后期承台水平加速度峰值出现了缩小的现象,同时在振动结束后承台产生了明显的动态残余位移。本研究取得的相关结论为液化土中斜群桩的相关研究以及工程设计提供参考。 相似文献
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为了了解动水效应对桩墩结构体系的影响以及完善桥梁结构的抗震设计方法,进行了水下桩墩结构模型体系的动力试验.从模型设计、试验装置和加载工况3个方面介绍了试验的实施过程.通过观察模型破坏形态和分析试验结果,探讨了动水压力对结构体系动力特性和地震响应的影响并且检验了应用该动力模型试验研究的适用性.试验结果表明:模型在水中的自振频率比无水时有所降低;动水压力的大小与输入的加速度峰值有关并且在相同的峰值加速度下沿模型从上到下依次递增;试验结果满足预期目的,证实了试验方案的有效性. 相似文献
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由于油田井下作业井架为一两腿落地的空间钢架结构,需要用绷绳作支撑,所以用于固定油田井下作业井架绷绳的地锚桩,其抗拔极限承载力的研究与确定对保证井下作业安全至关重要。本文用机械阻抗法对井下作业系统中地锚桩的极限抗拔载荷进行了测试与研究。采用瞬态激励法,用变时基技术分别测试了4种规格尺寸的油管桩和一种规格尺寸的水泥桩在瞬态激励下的速度信号,进行变时基传函分析得出动刚度,确定了极限承载力。结果分析表明,在大庆油田粘性土使用条件下,水泥桩的极限抗拔拉力很大,完全可以满足井下作业需要;不同尺寸油管桩的极限抗拔拉力差异较大,井下作业时应使用2.5m以上长度的油管桩。 相似文献
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单桩复合地基上块体振动特性分析 总被引:3,自引:0,他引:3
本文利用轴对称有限元-无限元耦合模型和现场试验,系统地分析了搅拌桩、碎石桩的长度、直径和波速及其桩身缺陷对单桩复合地基上圆形块体竖向振动速度导纳特性的影响,结果表明块体的低频速度导纳幅值比共振频率更能稳健地反映出复合地基的性状变化。本文研究对进一步完善复合地基动测理论与技术具有参考价值。 相似文献
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基于ANSYS LS-DYNA建立桥梁的墩-承台-桩-土有限元显式动力学模型,模拟桥梁的桩基础在承台上表面施加冲击荷载后完整桩和有断裂缺陷桩的竖向速度响应,分六桩-承台和八桩-承台两种桩基础进行数值计算。结果表明:在所要检测的基桩对应的承台上表面施加冲击力,产生的应力波通过承台到达下方的基桩后沿桩身向下传播,类似于低应变反射波法测桩的原理,应力波在到达桩底桩土交界面或者断裂面等阻抗变化较大处会发生应力波反射,在桩头处的竖向速度响应波形曲线中能识别出反射回的应力波,进而判别桩是完整还是存在断裂损伤;数值计算同时记录承台表面的竖向速度响应,发现承台表面的竖向速度响应波形比桩头处的竖向速度响应波形由于应力波在桩承台界面的多次反射而更加复杂,难以准确判断反射波。 相似文献
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端承桩在层状地基波动与辐射阻尼影响下的横向地震反应分析 总被引:1,自引:0,他引:1
通过对层状地层中端承桩的分析,建立了合理的几何,数学及力学模型。考虑层状地基SH与SV波波动及非线性辐射阻尼影响,应用Dirac广义函数及Winkler地基理论计入各种动力,抗力,地震力及内力等,建立地基波动方程,桩振动方程,地基与桩耦合振动方程。给出了柯西型函数的自由振动解。利用非经典理论正交条件和卷积定理给出了强迫振动地震反应解析解,算例结果充分表明了动力特性及振动规律非常正确,充分体现了本文 相似文献
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The seismic response of pile foundations is a very complex process involving inertial interaction between structure and pile foundation, kinematic interaction between piles and soils, seismically induced pore-water pressures (PWP) and the non-linear response of soils to strong earthquake motions. In contrast, very simple pseudo-static methods are used in engineering practice to determine response parameters for design. These methods neglect several of the factors cited above that can strongly affect pile response. Also soil–pile interaction is modelled using either linear or non-linear springs in a Winkler computational model for pile response. The reliability of this constitutive model has been questioned. In the case of pile groups, the Winkler model for analysis of a single pile is adjusted in various ways by empirical factors to yield a computational model for group response. Can the results of such a simplified analysis be adequate for design in all situations?The lecture will present a critical evaluation of general engineering practice for estimating the response of pile foundations in liquefiable and non-liquefiable soils during earthquakes. The evaluation is part of a major research study on the seismic design of pile foundations sponsored by a Japanese construction company with interests in performance based design and the seismic response of piles in reclaimed land. The evaluation of practice is based on results from field tests, centrifuge tests on model piles and comprehensive non-linear dynamic analyses of pile foundations consisting of both single piles and pile groups. Studies of particular aspects of pile–soil interaction were made. Piles in layered liquefiable soils were analysed in detail as case histories show that these conditions increase the seismic demand on pile foundations. These studies demonstrate the importance of kinematic interaction, usually neglected in simple pseudo-static methods. Recent developments in designing piles to resist lateral spreading of the ground after liquefaction are presented. A comprehensive study of the evaluation of pile cap stiffness coefficients was undertaken and a reliable method of selecting the single value stiffnesses demanded by mainstream commercial structural software was developed. Some other important findings from the study are: the relative effects of inertial and kinematic interactions between foundation and soil on acceleration and displacement spectra of the super-structure; a method for estimating whether inertial interaction is likely to be important or not in a given situation and so when a structure may be treated as a fixed based structure for estimating inertial loads; the occurrence of large kinematic moments when a liquefied layer or naturally occurring soft layer is sandwiched between two hard layers; and the role of rotational stiffness in controlling pile head displacements, especially in liquefiable soils. The lecture concludes with some recommendations for practice that recognize that design, especially preliminary design, will always be based on simplified procedures. 相似文献
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This paper presents a numerical model for the prediction of free field vibrations due to vibratory and impact pile driving. As the focus is on the response in the far field where deformations are relatively small, a linear elastic constitutive behaviour is assumed for the soil. The free field vibrations are calculated by means of a coupled FE–BE model based on a subdomain formulation. First, the case of vibratory pile driving is considered, where the contributions of different types of waves are investigated for several penetration depths. In the near field, the soil response is dominated by a vertically polarized shear wave, whereas in the far field, body waves are importantly attenuated and Rayleigh waves dominate the ground vibration. Second, the case of impact pile driving is considered. A linear wave equation model is used to estimate the impact force during the driving process. Apart from the response of a homogeneous halfspace, it is also investigated how the soil stratification influences the ground vibration for the case of a soft layer on a stiffer halfspace. When the penetration depth is smaller than the layer thickness, the layered medium has no significant influence on ground vibrations. However, when the penetration depth is larger than the layer thickness, the influence of the layered medium becomes more significant. The computed ground vibrations are finally compared with field measurements reported in the literature. 相似文献
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采用动力文克尔地基模型模拟均质粘弹性土层,推导出了均质土中单桩动阻抗;引用桩-桩动力相互作用因子,得到了刚性承台下群桩的动阻抗;而且建立了柔性承台与桩基础的竖向振动模型,该模型考虑了筏板自身的变形,并导出了其共同作用的运动方程。最后对柔性承台与刚性承台的计算结果作了对比分析。 相似文献
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Centrifuge modelling of raked piles 总被引:1,自引:1,他引:0
Sandra Escoffier Jean-Louis Chazelas Jacques Garnier 《Bulletin of Earthquake Engineering》2008,6(4):689-704
Inclined piles are prohibited by many codes in seismic areas. Nevertheless the battered effect has not yet been clarified
because very few data are available. The present work is a comparison, at reduced scale in the centrifuge, of the response
of two simplified pile groups: a 1 × 2 vertical piles and 1 × 2 pile group with one inclined pile. Two configurations are
considered: end-bearing and floating pile group, both with pile heads rigidly fixed with a massive cap. First, repeatability
tests under horizontal cyclic loading were performed on both floating pile groups. Secondly, repeated horizontal impact tests
were performed on both end-bearing pile groups. These impact tests, which highlight the influence of inclined piles on the
inertial response of a group, are a first step for the more complex analysis of the performance of such groups under seismic
loads where inertial and kinematic interactions are combined. The first part of this work revealed the influence of sand structure
around the inclined pile tip on the repeatability of the tests performed on floating pile groups. The second part highlighted
differences in the dynamic response between the two end-bearing pile groups through measurements of the pile cap acceleration,
the bending moment profile and the axial load in the piles. 相似文献
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人工神经元网络在公路工程震害预测方面的应用 总被引:2,自引:0,他引:2
本文采用人工神经网络理论,对城市公路网络中的单元路段和桥梁的震害预测进行了探讨。在闪人研究的基础上,提出了解决这一非确定性问题的一个有效的方法。对于深入研究生命线工程系统震害的规律具有普遍贩意义,从而使我们有可能避免地震造成的破坏和最大限度地减小损失,为抗震减灾提供决策依据。 相似文献
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分层液化土中桩基侧向动力反应机理的试验研究 总被引:2,自引:0,他引:2
饱和砂土中的桩基侧向动力响应研究一直是岩土工程界与地震工程领域关注的热点,尤其是群桩侧向动力响应机制是需要重点研究的课题之一。基于振动台试验,通过输入2种不同的波形,采用FBG光栅传感系统对饱和砂土中的单桩与群桩侧向动力响应特性和典型测试点的桩土动力p—y滞洄曲线进行研究。研究结果表明:振动初期,单桩和群桩试验孔压增长不大,随后单桩孔压迅速上升,振动后期逐渐下降至0.5,而群桩孔压则上升缓慢;单桩试验土表加速度在振动初期逐步升高后又迅速降低,且加速度放大值略大于台面加速度值,群桩试验土表加速度在振动初期逐渐升高时就达到了最大,且随着孔压比的升高,加速度没有继续放大,而是逐渐减小,直到后期与单桩试验土表加速度重合;饱和砂土液化对单桩承台加速度和位移的影响较大,群桩承台侧向动力响应对液化的敏感程度略低于单桩承台;在振动输入和承台输入相同的条件下,液化后的群桩基础比单桩基础能更好地抵抗侧向力的作用。 相似文献
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单桩基础在无限层地基中的横向地震反应分析 总被引:3,自引:0,他引:3
本文通过对分层弹性地基中单桩基础按Winkler(温克尔)地基土模型特性分析,建立了合理的力学模型。通过动力分析,给出了桩基础横向自振特性及在横向动力与地震载荷作用下强迫反应的解析解。文中的解析公式为分层弹性地基中单桩基础在横向动力与地震载荷作用下的动力反应分析提供了一种新的解析方法。 相似文献
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Nonlinear lateral interaction in pile dynamics 总被引:4,自引:0,他引:4
A model for pile lateral response to transient dynamic loading and to harmonic loading is presented allowing for nonlinear soil behaviour, discontinuity conditions at the pile-soil interface and energy dissipation through different types of damping. The approach is used to establish equivalent linear stiffness and damping parameters of single piles as well as dynamic interaction factors for approximate nonlinear analysis of pile groups. The applicability of these parameters to the pile-group analysis was examined, and a reasonable agreement with the direct analysis was found. The superposition technique may be used to analyze the response of small pile groups. Also, the dynamic stiffness of pile groups is greatly affected by both the nonlinear behavior of the soil and the slippage and gapping between the pile and soil. For a basic range of soil and pile parameters, equivalent linear stiffness and damping parameters of single piles and interaction factors for approximate nonlinear analysis are provided. 相似文献