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通过齐齐哈尔地区桩基单桩静载荷载试验数据,回归出齐齐哈尔地区标准荷载-沉降曲线(Q-S曲线),为该地区桩基的设计与工程验收提供了科学依据。本方法对工程建设桩基设计和施工具有普遍意义。 相似文献
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Y形桩反拱圆弧面侧摩阻力存在不均匀分布现象,侧摩阻力的异形效应导致沉桩过程中的荷载-沉降规律区别于传统桩型,异形效应下的沉降计算单桩极限承载力确定等问题有待研究。通过侧摩阻力、端阻力模型及其产生的附加应力模型,计算不同荷载作用下的桩端沉降,通过荷载-沉降规律预测Y形桩单桩极限承载力。沉降及极限承载力理论计算值与静载试验结果吻合良好。分析了桩长L、外包圆半径R、模板弧度θ、开弧间距s、夹角弧度δ这5个变量对Y形桩沉降及极限承载力的影响,在其他参数不变时,相同桩顶荷载作用下Y形桩单桩沉降随外包圆半径R、开弧间距s、夹角弧度δ、桩长L的增大而减小,随模板弧度θ的增大而增大;Y形桩单桩极限承载力随外包圆半径R、开弧间距s、夹角弧度δ、桩长L的增大而增大,随模板弧度θ的增大而减小。 相似文献
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叙述一种新的大应变检测单桩竖向承载力的方法. 用重锤或小型火箭筒冲击桩顶,用检波器记录振波图. 引入应变(变形力)的高次项,从理论上证明当为大位移大应变, 即桩相对于土体产生整体滑动时,位移、速度和加速度则不能经过简单积分加速度和微分速度得到,即它们为非线性关系. 由此导出:通过波列振幅计算力(P)和位移(S),并作(动态)P-S曲线、确定屈服点,进而阐述确定单桩竖向承载力的方法,并利用静载荷试验检验动测结果和确定动静P(Q)S曲线的相关常数. 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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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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针对苏州轻轨一号线盾构隧道的施工情况,采用三维有限元数值模型,研究了盾构施工对不同刚度桩体的影响。计算结果表明:当盾构施工时,不同刚度桩体均偏向隧道移动,在隧道轴线处的横向位移均为最大。桩身横向位移最大值、竖向位移随桩体刚度增大而变小,桩身轴力、弯矩则随桩体刚度增大而逐渐增大,桩身最大负弯矩均出现在隧道轴线位置处。在盾构正下方穿越单桩过程中,桩身沿隧道轴向位移近似为一条直线。当桩体弹性模量为0.5 GPa时,柱顶和桩底处竖向位移相差较大;当桩体弹性模量大于0.5 GPa时,桩身竖向位移急剧增大。桩身轴力沿桩身两端大、中间小。桩身弯矩随桩体弹性模量增大而明显增大。 相似文献
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基于复刚度传递多圈层平面应变模型,研究考虑桩周土挤土效应时成层地基中楔形桩的纵向振动问题。首先根据桩周土体的纵向成层情况并考虑楔形桩的变截面特性,将桩土系统沿纵向划分为有限个微元段,对每个微元段的桩周土体建立复刚度传递多圈层平面应变模型,并通过剪切复刚度递推方法求得桩周土作用在桩身的剪切复刚度;然后将求得的剪切复刚度代入桩身纵向振动控制方程,运用Laplace变换技术和阻抗函数递推方法,推导得到考虑桩周土挤土效应时成层地基中楔形桩纵向振动时桩顶复阻抗的解析解;最后,采用参数研究方法在低频范围内分析挤土效应对桩顶复阻抗的影响及其规律。 相似文献
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Werasak Raongjant 《地震工程与工程振动(英文版)》2011,10(3):417-422
This paper describes a quasi-static test program featuring lateral cyclic loading on single piles in sandy soil. The tests were conducted on 18 aluminum model piles with different cross sections and lateral load eccentricity ratios, e/d, (e is the lateral load eccentricity and d is the diameter of pile) of 0, 4 and 8, embedded in sand with a relative density of 30% and 70%. The experimental results include lateral load-displacement hysteresis loops, skeleton curves and energy dissipation curves. Lateral capacity, ductility and energy dissipation capacity of single piles under seismic load were evaluated in detail. The lateral capacities and the energy dissipation capacity of piles in dense sand were much higher than in loose sand. When embedded in loose sand, the maximum lateral load and the maximum lateral displacement of piles increased as e/d increased. On the contrary, when embedded in dense sand, the maximum lateral load of piles decreased as e/d increased. Piles with a higher load eccentricity ratio experienced higher energy dissipation capacity than piles with e/d of 0 in both dense and loose sand. At a given level of displacement, piles with circular cross sections provided the best energy dissipation capacity in both loose and dense sand. 相似文献
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Werasak Raongjant 《地震工程与工程振动(英文版)》2011,10(3)
This paper describes a quasi-static test program featuring lateral cyclic loading on single piles in sandy soil. The tests were conducted on 18 aluminum model piles with different cross sections and lateral load eccentricity ratios, e/d, (e is the lateral load eccentricity and d is the diameter of pile) of 0, 4 and 8, embedded in sand with a relative density of 30% and 70%. The experimental results include lateral load-displacement hysteresis loops, skeleton curves and energy dissipation curves. Lateral cap... 相似文献
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The paper presents a numerical investigation on the behaviour of reinforced concrete bridge piers subjected to horizontal seismic input. The scope of the investigation is to quantify the phenomenon of bending-induced axial vibrations. The results of a set of analyses conducted on single-column bent systems indicate that flexural cracking produces, in fact, significant axial vibrations. This effect is particularly relevant in squat elements with low axial force where the sway of the cross-sectional neutral axis under alternate bending causes strong hammering impulses at crack closure. Quantification of the effects related to this phenomenon can be determinant for the seismic assessment of existing bridges as well as for the design of new bridges. Likewise, performance and design forces of bearings and other anti-seismic devices can be estimated with more accuracy, based on the expected level of combined vertical and horizontal acceleration response on decks. The pier overall flexural response is not significantly altered by the fluctuation in axial force associated to these impulses, although local moment–curvature behaviour is, due to axial–bending interaction. Shear resisting mechanisms should be more sensitive to these vibrations and shear failure anticipated when a reduction in the axial contribution to the section shear capacity occurs. A tentative equation for the prediction of this flexural-induced vertical acceleration component is proposed based on simplified section kinematics and elastic impact analysis. Copyright © 1999 John Wiley & Sons, Ltd. 相似文献
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Introduction Through many year's practices by vast numbers of scientific and technological workers andefforts from all aspects, the dynamic testing method of high-low strain has formally entered intothe technical code of foundation pile test of construction at last (The Industry Standards of thePeople's Republic of China, 2003). The striking mode of the dynamic testing method of high strainis stipulated as hammer in the code, the striking of rocket can also be used. The latter is widely… 相似文献