共查询到16条相似文献,搜索用时 187 毫秒
1.
为探究层状地基环形沟隔振中几何参数对其隔振效果的影响规律,文章采用振幅衰减比Ar值进行评价分析,并定义沟后Ar≤0.4区域为有效隔振区域,通过改变环形沟的几何参数,得到其对有效隔振区域影响变化规律,从而确定环形沟不同几何参数对其隔振效果的影响。结果表明:层状地基土中环形沟深度位于土层分界面附近时,环形沟隔振效果相对较弱;当宽度参数在0.01~0.35之间不断增大时,有效隔振区域占比变化幅度仅为4.8%,即环形沟宽度变化对环形沟隔振效果影响较小;随着环形沟弧长的增加,有效隔振区域面积的扩大速率减缓,弧长参数达到2.20以后,隔振效果趋于稳定;振源与环形沟之间及环形沟末端位置区域存在振动放大区。 相似文献
2.
为分析均质地基中各参数变化对土体振动响应和空沟隔振效果的影响,通过有限元软件建立二维均质地基计算模型,分析空沟尺寸、激振频率等对土体的影响,研究了不同土体弹性模量、密度及泊松比下的振动加速度差异。结果表明,空沟深度为重要影响因素,空沟深度越深,隔振效果越好;空沟宽度对隔振效果几乎无影响;弹性模量对空沟隔振效果的影响较密度大,且弹性模量越大,隔振效果越差;密度对土体振动加速度和振幅衰减系数的影响较小;泊松比对空沟隔振效果的影响大于密度,但低于弹性模量,泊松比越大,振动加速度越小,隔振效果越差;激振频率越大,空沟隔振效果越好。 相似文献
3.
动力机器运行和车辆行驶等会产生振动污染,危及邻近建筑物安全和干扰精密仪器设备正常运行等。这些振动污染可通过在地基中设置空沟的方式来降低或消除。针对饱和地基上明置动力机器基础的环境振动影响及空沟近场隔振问题,进行了饱和地基上空沟近场隔振的现场试验,并对试验结果进行了无量纲化分析;基于饱和土半解析边界元法,分别推导了动力机器基础环境振动影响和空沟近场隔振的边界元方程;在此基础上,详细研究了空沟对动力机器基础振动影响的隔振效果,分析了空沟深度、宽度和距振源距离对其隔振效果的影响。结果表明:空沟能够有效的降低动力机器基础的环境振动影响;空沟宽度对其隔振效果影响相对较小,而空沟深度对其隔振效果影响较大,为获得较好的隔振效果,空沟深度建议取1倍Rayleigh波波长;空沟距振源距离对其隔振效果也有较大影响,距离越远则隔振效果也越好,当被保护建筑距振源较远时,建议空沟在被保护建筑附近设置。此外,在某些特殊情况下,空沟隔振系统会由于共振现象而出现隔振效果劣化的现象,在工程设计中应予以注意。 相似文献
4.
随着中国高速铁路建设的快速发展,移动荷载下路基振动所带来的环境污染日益严重,轨道交通诱发的环境振动隔振已成为土动力学研究的热点之一。为缓解轨道交通诱发的振动污染问题,考虑车-轨道-土体动力相互作用,建立列车-轨道简化分析模型,采用三维半解析半理论边界元法,探究移动荷载下均质和Gibson地基中埋置Duxseal时的隔振效果进行分析并探讨不同Duxseal宽度、厚度及埋深对隔振效果的影响。研究结果表明:在一定范围内增加Duxseal宽度和厚度有助于提高隔振效果,较小的埋深对振动控制有利。Duxseal参数的设计要充分考虑成本和地基参数,地基类型对水平方向的隔振效果影响较小,竖向受土质参数的影响较大。 相似文献
5.
为研究层状地基的分界面对于空沟隔振效果的影响,采用模型试验,选取三种不同深度的空沟,分别为小于分界面深度和等于分界面深度以及超过分界面深度的三种深度,分析在改变空沟宽度、空沟位置(固定振源即传感器位置,仅改变空沟所处位置)以及激振频率时对三种深度空沟隔振效果的影响。结果表明:当宽度和激振频率发生改变时,深度等于土层分界面处深度的空沟隔振效果变化最不明显;当宽度和空沟位置发生改变时,沟深小于分界面深度的空沟受到的影响最为明显;在激振频率的改变下时,沟深大于土层分界面深度的空沟所受影响最大;当固定其余参数,逐渐增加空沟深度时,深度在变化到分界面处时会有Ar值发生增加现象,该现象受到激振频率影响,激振频率越低,则上升幅度越大,低频的上升区间也最长,即Ar值从出现上升趋势至恢复减小趋势的距离为上升区间。综上结论,在选择隔振沟时应注重上述因素的影响,合理设计隔振沟,使其达到最佳隔振效果。 相似文献
6.
为研究高速列车作用下,层状地基中空沟对场地振动的隔振效果,基于车辆-轨道耦合动力学理论及有限元法,对建立完善高速车辆-无砟轨道-地基耦合系统动力学模型进行仿真计算,分析设置空沟对场地振动的影响,并探讨了空沟的深度、位置、宽度以及列车速度的影响。结果表明:设置空沟加强了沟前场地的振动,但可使空沟后方地基的竖向和水平振动水平大幅减小,但在特定位置存在振动放大区,引起隔振效果减弱;过浅或过深的空沟均不能达到最优隔振效果;对于在线路旁需要特殊隔振的场地,存在一个适用于其本身的空沟最佳位置;空沟的宽度对隔振效果无明显影响;空沟对更高速度运行列车引起场地竖向和横向振动的隔振效果更明显。 相似文献
7.
《地震工程与工程振动》2021,41(2)
高铁运行产生的振动对周边环境的影响不容忽视,空沟填充沟是高速铁路有效的屏障隔振方式之一。文中以饱和土2.5D有限元理论为基础,考虑轨道和路基的动力相互作用,建立轨道-路基-填充沟数值计算模型,编制FORTRAN计算程序,分析列车在低速和高速运行条件下填充沟的隔振性能及设计参数对隔振效果的影响。计算表明:填充沟对沟后区域隔振效果较好,且高速列车的隔振效果优于低速列车;隔振后振动频段范围变化不大,但原频段振动竖向加速度幅值有较明显衰减;隔振后加速度振级下降约20 dB,加速度衰减系数衰减至隔振前的0.1倍;填充沟的弹性模量、埋深以及埋置位置对隔振效果均有较大影响。 相似文献
8.
为评价轨道交通连续型隔振屏障的隔振效果,通过Abaqus有限元数值方法,对空沟、填充沟等连续型屏障的隔振效果及其影响因素进行分析。结果表明:隔振屏障前侧振动加强,屏障后侧存在较好地隔振效果,屏障参数的变化对屏障前振动加强效果的影响较小,部分屏障参数的变化对屏障后侧隔振效果存在影响;屏障的隔振性能随屏障深度的增大而增强,受屏障宽度的影响较小;橡胶板墙隔振性能较差,空沟和混凝土板墙的隔振性能较强,空沟的隔振效果强于混凝土板墙;屏障距离路基越近隔振效果越好,建议工程上应用屏障隔振时,屏障靠近路基设置。 相似文献
9.
10.
为了研究分层土地基(上层为粘土层,下层为砂层)条件下几何参数对单排混凝土桩的隔振效果,该试验通过缩尺比例为1∶15的缩尺模型试验,以激振器作为点振源产生振动波向四周扩散,通过对比单排桩前后两侧振动加速度极值,清晰地展现出了单排桩对振动波的的影响区域,并得到了几何参数的隔振影响作用。在该试验条件下得出结论:相对于其他影响因素,桩长是影响隔振效果的重要参数,当桩长参数由0.28增至0.57时可提高约9%的隔振面积,同时增加桩长和隔振区长度可使隔振区域振幅大幅度减小与有效隔振面积大幅增加,但同时会造成桩前一侧振动增强;对于低频振动,单排桩隔振屏障对中频和高频有更好的隔振作用,该试验条件下隔振效果可相差约3%,且频率越高,穿透性越强,且将在桩后形成一个振动加强区;增加振源距可有效提高隔振效果,但当频率较低时,中远振源的隔振效果相近。 相似文献
11.
为研究双线地铁运营时隔振沟的减振效果,基于2.5维有限元法建立双线地铁列车-轨道-地基土体耦合分析模型。模型克服现有研究将轨道结构简化为弹性地基欧拉梁的缺陷,引入实际钢轨动力学参数,实现双线地铁列车荷载下隔振沟对周围地基的隔振效果分析,比较空沟、填充沟两种不同隔振措施的减振特性,并对填充沟隔振影响因素进行系统的参数分析。研究结果表明:双线运营地铁荷载下,空沟隔振作用体现在沟后范围内,填充沟减振范围更广且效果更好,相比空沟更具工程实用性;填充沟在沟深较小时也能发挥良好的减振作用,增大沟深、沟宽均可有效提高减振效果。研究成果可为今后双线地铁隔振设计与施工提供有益参考。 相似文献
12.
Analysis and design of open trench barriers in screening steady-state surface vibrations 总被引:1,自引:0,他引:1
The problem of vibration isolation by rectangular open trenches in a plane strain context is numerically studied using a finite element code, PLAXIS. The soil media is assumed to be linear elastic, isotropic, and homogeneous subjected to a vertical harmonic load producing steady-state vibration. The present model is validated by comparing it with previously published works. The key geometrical features of a trench, i.e., its depth, width, and distance from the source of excitation, are normalized with respect to the Rayleigh wavelength. The attenuation of vertical and horizontal components of vibration is studied for various trench dimensions against trench locations varied from an active to a passive case. Results are depicted in non-dimensional forms and conclusions are drawn regarding the effects of geometrical parameters in attenuating vertical and horizontal vibration components. The screening efficiency is primarily governed by the normalized depth of the barrier. The effect of width has little significance except in some specific cases. Simplified regression models are developed to estimate average amplitude reduction factors. The models applicable to vertical vibration cases are found to be in excellent agreement with previously published results. 相似文献
13.
结合某高精密设备平台基础隔振实际工程,基于UPFs(User Programmable Features)二次开发特点,提出考虑基础-地基-基础动力相互作用计算基础隔振分析的三维有限元方法。该方法首先将动力机器、周围地基以及高精密设备平台基础作为完整的研究对象,通过引入三维紧支黏弹性边界单元模拟半无限地基辐射阻尼效应和远场介质的弹性恢复性能,并在通用有限元软件ANSYS中实现。进而基于最小二乘方法回归分析得到振动衰减关系曲线,通过其与数值分析结果的对比验证计算模型的合理性。最后针对此工程场地条件建立隔振沟减振隔振措施的有限元模型,并对隔振沟影响因素的减振效果进行分析。计算结果表明,隔振沟的位置、深度以及长度是实际工程中需要考虑的重要因素,对其进行合理的选取可获得较好的隔振效果。 相似文献
14.
Wenbo Yang Yingchao Shang Dexiong Liu Tao Zou Qixiang Yan Yong Fang Chuan He 《地震工程与工程振动(英文版)》2020,19(3):779-790
This paper presents a study of the isolation performance of trenches on train-induced ground-bore vibration from underground tunnels. A series of model tests was conducted to perform the study. Both train loads and sinusoidal sweep loads were applied to the model tunnel invert by a shaker. The response of the soil at the surface of the ground was measured by accelerometers. Three types of isolation trenches, i.e., an open trench, an expanded Polystyrene(EPS)-filled trench, and a Duxseal-filled trench, were modelled in the experiment. The results showed that the open trench and the EPS-filled trench increased the dynamic response of the surface soil in front of the trench, but the Duxseal-filled trench had little effect on the dynamic response of the soil on the surface in this area. Although all three types of isolation trenches reduced the response of the soil behind the trench, the open trench and the Duxseal-filled trench were clearly more effective. The test results also showed that, as the excitation frequency increased, the vibration isolation trench was more effective in the near field. The effects of the width, depth, and position of an open trench on isolation performance also were examined in the tests. 相似文献
15.
Erkan Çelebi Seyhan Fırat Günay Beyhan İlyas Çankaya İsa Vural Osman Kırtel 《Soil Dynamics and Earthquake Engineering》2009
In this paper, the obtained results from the experimental studies describe the basic characteristics of wave propagation and ability of possible measures to reduce the impact of soil vibrations on structural response for both active and passive isolation cases. A series of field tests on the foundation vibrations generated by electrodynamic shaker are performed to examine the screening efficiency of open and in-filled trench barriers which are constructed for full-scale measurement. From field measurements of amplitude with and without the barrier, the amplitude reduction ratio is estimated at different points of interest. Wave propagating characteristics and frequency-dependent screening effects of the wave barriers are investigated according to various isolation material stiffnesses. The remarkable outcomes from these experimental studies can be briefly generalized as follows: backfilled trench with softer material than soil is more effective for the passive isolation than the active one. The reduction effects of wave barriers depend on the frequency of vibration source for both passive and active isolation cases. In-situ measurements confirm that vibration screening systems using open or in-filled trench barriers can be applied as a reduction measure for soil vibrations due to a moving load which is considered as stationary wave source in this problem. 相似文献
16.
Vibration screening effectiveness of a pair of in-filled trenches is numerically studied under conditions of plane strain using PLAXIS 2D in a linear elastic, isotropic, and homogeneous half-space acted upon by a steady-state vertical excitation. Barrier efficiency is analyzed in terms of reduction of vertical and horizontal vibration components with respect to the variations in barrier geometry and in-fill material parameters. The geometric features are normalized with respect to Rayleigh wavelength of vibration in soil. The in-fill trench material is considered to be softer and accordingly assigned lower shear wave velocities than the half-space. Non-dimensional design charts are developed and the key parameters participating in wave screening process are identified. Some recommendations are made regarding the optimal selection of these parameters. Comparison with a few published results shows close agreement. Such an isolation scheme may be advantageous in circumstances where a single trench requires unrealistic depth. 相似文献