Dynamic performance of cable-stayed bridge tower with multi-stage pendulum mass damper under wind excitations --Ⅰ： Theory

In this paper, wind-induced vibration control of a single column tower of a cable-stayed bridge with a multi- stage pendulum mass damper （MSPMD） is investigated. Special attention is given to overcoming space limitations for installing the control device in the tower and the effect of varying natural frequency of the towers during construction. First, the finite element model of the bridge during its construction and the basic equation of motion of the MSPMD are introduced. The equation of motion of the bridge with the MSPMD under along-wind excitation is then established. Finally, a numerical simulation and parametric study are conducted to assess the effectiveness of the control system for reducing the wind-induced vibration of the bridge towers during construction. The numerical simulation results show that the MSPMD is practical and effective for reducing the along-wind response of the single column tower, can be installed in a small area of the tower, and complies with the time-variant characteristics of the bridge during its entire construction stage.     

高频振动下散粒体-结构界面临界状态强度特征试验研究

高铁桥梁、路基工程中的桩基础持续承受列车运行引发的振动荷载,当前350 km/h车速下的车致振动已高达近40 Hz。随着车速的进一步提升,可能给桩基础承载性能带来不利影响。桩-土界面是桩和地基土之间力和变形传递的重要媒介,很大程度上决定着桩基础的长期服役性能。但目前对于高频振动荷载下桩-土界面相互作用行为的认识和研究均不足。基于自主研制的可实现土-结构界面高频振动耦合静力剪切的试验装置,研究了散粒体-结构界面在振动下的临界状态强度特征,探讨了振动加速度、法向应力、结构面粗糙度、颗粒形状和振动频率的影响。结果表明：振动会导致界面强度衰减,部分振动条件下的界面强度甚至低于静力条件下的0.5倍;振动下的界面强度随振动加速度、频率的增大而下降,随法向应力的增大而提高。最后,基于摩尔-库仑强度理论,建立了振动下的散粒体-结构界面强度准则。     

基于统计的边缘阈值检验方法

本文提出了建立在统计分析的基础上边缘阈值检验方法,每个像素的阈值由像素处的梯度矢量的统计特性决定,这些梯度矢量的统计量用来确定边缘像素选取是否合理,从所获得的结果来看,该方法与以往的边缘检测方法不仅是一致的;而且该方法输入参数值产生的结果比其他边缘检测方法更稳定。     

GPS结构振动监测数据滤波方法及其性能实验研究

使用GPS监测结构振动的目的在于提取振动信号特征,但GPS观测量受多种误差源的影响,因此,选用合理的数据处理方法有效地分离各误差项,对于提高GPS的监测精度具有重要意义。将Vondrak滤波、小波滤波、自适应FIR滤波和卡尔曼滤波等四种方法应用于资料序列中振动信号的分离,通过对模拟振动实验观测资料的分析表明:运用滤波法可提高GPS测量微小动态变形和变频振动信号的检测能力;4种滤波法均能有效地提高GPS监测结构振动的精度,其中,Vondrak滤波和小波滤波的性能相当,且优于自适应FIR和卡尔曼滤波。同时,在对各滤波法参数选择的优缺点进行分析的基础上,提出不同情况下选择滤波器的建议。     

基于离散元的超声波振动辅助TBM滚刀碎岩分析

超声振动辅助碎岩技术以其弱化岩石强度、降低切削力、加快钻进速度等优势受到广泛关注,将超声振动技术与滚刀结合,能有效提升隧道硬岩施工滚刀破岩效率。采用颗粒流离散元软件对超声波振动辅助滚刀碎岩过程进行了模拟研究,结果表明,超声波振动能够产生周期性应力波并向岩石内部传播,在岩石的近表面区域出现较强的拉应力,有助于浅层岩石的张拉破坏。超声波振动提升了岩石内部裂纹的生成规模,加快了裂纹的生成速度,提前了裂纹初次萌生时间,对滚刀的破岩性能有良好的增益效果。超声波振动下岩石裂纹生成更加平稳,减少了跃进式破碎现象,能够避免因剧烈振动产生的冲击载荷对滚刀产生异常磨损和破坏,对延长滚刀寿命具有促进作用。     

悬臂式刚性墙动力响应解析研究

从水平简谐振动作用下二维土?悬臂式刚性墙计算模型出发,基于波动力学理论,同时考虑土层的竖向应力和竖向位移,对二维场地中悬臂式刚性墙的动力响应特性进行了解析研究。首先对土层振动方程进行变换,得到关于体积应变? 的方程,通过分离变量法进行求解,再回代振动方程得到关于位移运动方程的非齐次方程,结合墙与土层的相互作用条件及远场边界条件得到振动方程定解,进而得到地下刚性墙墙上土压力、墙底剪力及弯矩的更为严格的解析解。将所得解与忽略竖向应力解、忽略竖向位移解进行了对比。研究表明,所得解能多反映出一个共振频率,且当土体泊松比大于0.45时,忽略竖向位移解失去意义。通过参数分析,表明激励频率与土体阻尼因子对墙体动力响应影响较大,考虑的振动模态阶数对墙体动力响应影响较小。     

周期排列水平管对地铁振动的隔振性能研究

根据声子晶体理论,提出了一种周期性排列的水平管隔振方法并探讨了其对地铁振动的隔振性能。利用平面波展开法与Bloch定理结合,得到水平管的能带结构。建立轨道?隧道?土体相互作用的三维ABAQUS精细化模型,进一步验证了周期性水平管对地铁振动的减振效果,并探究了水平管材料及其相关参数对隔振带隙的影响。结果显示：数值计算所得的衰减域与理论分析的带隙结果相吻合,周期性排列的水平管对特定频带的振动隔离效果明显且其隔振频带较宽。衰减域随填充材料弹性模量的减小逐渐下移;隔振频带的起始值随桩径的增大而提高;随着轴心间距的增大,衰减域上下限同时减小,同时也在一定程度上降低了整个隔振结构的带隙宽度。计算表明周期性水平管在不同参数条件下的频带范围在40～900 Hz之内。     

光纤振动传感之一:旋转测量技术及其地震学应用

地震波场可分解为三分量平动和三分量旋转运动.旋转分量包含重要的波场梯度信息,是地震波场重建的关键要素,但过去由于缺乏稳定的高灵敏度旋转测量仪器,它在不同的地震学应用中常被忽略.光纤旋转地震仪是率先打破测量仪器缺乏困境、最先实现商业化的旋转地震仪,也是目前最有发展前景的地震波旋转直接测量设备.光纤旋转地震仪基于Sagnac效应,并依托成熟的光纤陀螺技术实现振动的旋转分量测量.它具有纯光电传感不受平动影响的测量优势;并且能够在高灵敏度和宽频带旋转测量的基础下实现设备的小型化,有利于旋转测量的应用推广.因此,光纤旋转地震仪和传统的地震仪将形成互补,实现旋转和平动六分量(6C)的观测,更好地提取地震波场特征,提高振动监测能力,有效改善震源过程反演、地下结构成像和地震破坏机理研究等应用.本文主要介绍光纤旋转测量的基本原理、旋转地震学的应用及其潜在应用前景.     

A practical approach to predicting cross-flow and in-line VIV response for deepwater risers

In this study, a practical model is proposed to predict cross-flow (CF) and in-line (IL) vortex-induced vibrations of a flexible riser in time domain. The hydrodynamic force as a function of non-dimensional amplitude and frequency is obtained from the forced vibration experimental data of a two-dimensional cylinder. An empirical nonlinear damping model is used to simulate the hydrodynamic damping outside the experiment's range. Coupling effect of CF and IL-VIV is taken into account by implanting a magnification model for the IL hydrodynamic force associated with CF amplitude, and by increasing the non-dimensional amplitude corresponding to the IL hydrodynamic coefficient in the second excitation region. The experimental models of flexible riser under the uniform and sheared current are simulated to validate the proposed model. The predicted displacement, curvatures, excited modes and fatigue damage show reasonable agreement with the measured data.     

The validity of the independence principle applied to the vortex-induced vibration of an inclined cylinder in steady flow

The validity of the independence principle applied to the vortex-induced vibration (VIV) of an inclined cylinder in steady flow is investigated by conducting numerical simulations. In order to create a perfect end-effect-free condition, periodic boundary condition is applied on the two end boundaries that are perpendicular to the cylinder. It is found that the response amplitude and frequency for an inclination angle of α = 45° agree well with their counterparts for α = 0°. The numerical results demonstrated the validity of the independence principle in the case of vortex-induced vibration, which has not been demonstrated by laboratory tests due to the difficulty in avoiding the end effects.