共查询到18条相似文献,搜索用时 250 毫秒
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基于薄层法在研究层状介质中波的传播问题的高效性,边界单元法处理无限域问题的精确性,结合两者提出层状地基二次形函数薄层法基本解答, 建立了基于层状半空间薄层法位移基本解答的半解析动力边界元法,可以有效的分析多层场地的动力问题,解决土-结构动力相互作用问题.同时对上软下硬的典型层状地基中的空沟被动隔振效果进行了详细的分析.研究表明:对于上软下硬地基中空沟被动隔振,为取得与匀质弹性半空间中连续屏障隔振同样的效果,需要更深的深度,同时振幅衰减曲线会出现明显的振荡现象;为使隔振效果满足Richart要求,当表层土归一化深度H<1.0时,空沟归一化深度T应大于1.3,而1.0≤H≤2.0时,T应当大于1.8. 相似文献
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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
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二维地基波阻板隔振分析 总被引:5,自引:0,他引:5
本文采用了以薄层法层状半空间基本解答作为格林函数的边界元法,对均质弹性半空间和层状半空间中二维波阻板隔振设计进行了详细的参数分析。分析结果表明,均质弹性半空间和层状半空间内采用波阻板隔振均可取得较好的隔振效果;应保证波阻板具有合理的宽度和较小的埋深,才能得到理想的隔振效果;同时增加波阻板的厚度和模量是提高隔振效果的最有效的2种措施;此外,分层性对波阻板隔振效果也具有一定的影响。 相似文献
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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
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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
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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
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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
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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
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《地震工程与工程振动》2021,41(2)
结合振动波在土介质中的传播特性,在传统矩形空沟的基础上,设计6种不同截面形状的新型空沟。通过有限元建立各种新型空沟在不同面积、不同空沟排数及不同截面形式等工况下的隔振模型,研究各新型空沟在均匀、各向同性的弹性半空间下对地表稳态垂直简谐激励的隔振效果,从而探索如何通过改变波的传播方向、削弱波在原方向上的传播能力等措施,提高空沟的隔振效果。数值分析结果表明:(1)新型截面空沟在沟后绝大多数位置的主动隔振效果优于传统矩形空沟。当截面斜边设置在靠近振源侧时,更有利于提高主动隔振效果,其中右侧直角梯形截面空沟的主动隔振效果与传统矩形空沟相比,沟后平均竖向隔振效果可提高10.2%,水平隔振效果可提高8.4%;(2)增加空沟的排数能有效改善各截面形状空沟的隔振效果,但是当排数超过2排时,继续增加空沟排数对水平方向主动隔振及竖向被动隔振效果的改善不显著;(3)增加截面面积未能有效提高空沟的隔振效果,相反,在一定程度上反而减弱隔振效果。 相似文献
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In this paper, a series of field experiments were carried out to investigate the active vibration isolation for a surface foundation using horizontal wave impedance block (WIB) in a multilayered ground under vertical excitations. The velocity amplitude of ground vibration was measured and the root-mean-square (RMS) velocity is used to evaluate the vibration mitigation effect of the WIB. The influences of the size, the embedded depth and the shear modulus of the WIB on the vibration mitigation were also systematically examined under different loading conditions. The experimental results convincingly indicate that WIB is effective to reduce the ground vibration, especially at high excitation frequencies. The vibration mitigation effect of the WIB would be improved when its size and shear modulus increase or the embedded depth decreases. The results also showed that the WIB may amplify rather than reduce the ground vibration when its shear modulus is smaller or the embedded depth is larger than a threshold value. Meanwhile, an improved 3D semi-analytical boundary element method (BEM) combined with a thin layer method (TLM) was proposed to account for the rectangular shape of the used WIB and the laminated characteristics of the actual ground condition in analyzing the vibration mitigation of machine foundations. Comparisons between the field experiments and the numerical analyses were also made to validate the proposed BEM. 相似文献
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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
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Out-of-plane (SH) soil-structure interaction: a shear wall with rigid and flexible ring foundation 
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下载免费PDF全文 Soil-structure interaction (SSI) of a building and shear wall above a foundation in an elastic half-space has long been an important research subject for earthquake engineers and strong-motion seismologists. Numerous papers have been published since the early 1970s; however, very few of these papers have analytic closed-form solutions available. The soil-structure interaction problem is one of the most classic problems connecting the two disciplines of earthquake engineering and civil engineering. The interaction effect represents the mechanism of energy transfer and dissipation among the elements of the dynamic system, namely the soil subgrade, foundation, and superstructure. This interaction effect is important across many structure, foundation, and subgrade types but is most pronounced when a rigid superstructure is founded on a relatively soft lower foundation and subgrade. This effect may only be ignored when the subgrade is much harder than a flexible superstructure: for instance a flexible moment frame superstructure founded on a thin compacted soil layer on top of very stiff bedrock below. This paper will study the interaction effect of the subgrade and the superstructure. The analytical solution of the interaction of a shear wall, flexible-rigid foundation, and an elastic half-space is derived for incident SH waves with various angles of incidence. It found that the flexible ring (soft layer) cannot be used as an isolation mechanism to decouple a superstructure from its substructure resting on a shaking half-space. 相似文献
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分层土-基础-高层框架结构相互作用体系振动台模型试验研究 总被引:30,自引:6,他引:30
本文设计实现了分层土-基础-高层框架结构相互作用体系的振动台模型试验,再现了地震动激励下上部结构和基础的震害现象和砂质粉土的液化现象。通过试验,研究了相互作用体系地震动反应的主要规律:由于动力相互作用的影响,软土地基中相互作用体系的频率小于不考虑结构-地基相互作用的结构频率,而阻尼比则大于结构材料阻尼比;体系的振型曲线与刚性地基上结构的振型曲线明显不同,基础处存在平动和转动。土层传递振动的放大或减振作用与土层性质、激励大小等因素有关,砂土层一般起放大作用,砂质粉土层一般起减振隔振作用;由于土体的隔震作用,上部结构接受的振动能量较小,各层反应均较小。上部结构顶层加速度反应组成取决于基础转动刚度、平动刚度和上部结构刚度的相对大小。 相似文献
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A study on the seismic response of massive flexible strip-foundations embedded in layered soils and subjected to seismic excitation is presented. Emphasis is placed on the investigation of the system response with the aid of a boundary element–finite element formulation proper for the treatment of such soil–structure interaction problems. In the formulation, the boundary element method (BEM) is employed to overcome the difficulties that arise from modeling the infinite soil domain, and the finite element method (FEM) is applied to model the embedded massive flexible strip-foundation. The numerical solution for the soil–foundation system is obtained by coupling the FEM with the BEM through compatibility and equilibrium conditions at the soil–foundation and soil layer interfaces. A parametric study is conducted to investigate the effects of foundation stiffness and embedment on the seismic response. 相似文献
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Vibration isolation of structures from ground-transmitted waves by open trenches in isotropic, linearly elastic or viscoelastic soil with a shear modulus varying continuously with depth is numerically studied. Both an exponential and a linear shear modulus variation with depth are used in this work. Waves produced by the harmonic motion of a rigid surface machine foundation are considered. The problem is solved by the frequency domain boundary element method employing the Green's function of Kausel-Peek-Hull for a thin layered half-space. Thus only the trench perimeter and the soil-foundation interface need essentially to be discretized. The proposed methodology is first tested for accuracy by solving two Rayleigh wave propagation problems in nonhomogeneous soil with known analytical solutions and/or for which experimental results are available. Then the method is applied to vibration isolation problems and the effect of the inhomogeneity on the wave screening effectiveness of trenches is studied. 相似文献
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基于水平摇摆阻尼系统模型,建立土-层间隔震结构简化分析模型,将地基土等效到上部结构,推导得到简化模型动力特性参数表达式,并通过对结构周期比及振型参与位移进行分析,讨论质量比及土体剪切波速对层间隔震结构自振特性的影响规律。利用虚拟激励法及均匀调制非平稳随机响应分析方法,分别从时域和频域角度分析不同场地条件下SSI效应对层间隔震结构的振动响应影响。结果表明:在刚性地基下,结构质量比对结构周期比及振型参与位移的影响较小,SSI效应放大了各子结构响应,尤其对下部子结构响应影响最大,各子结构在场地土差异下变化明显,软土场地下各子结构响应变大。 相似文献
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A study on the dynamic characteristics of rigid foundations with special geometries such as square or circular with concentric internal holes, is presented. The foundations are resting on a homogeneous, linear elastic halfspace and are subjected to external forces or seismic wave excitation. Both ‘relaxed’ and ‘non-relaxed’ boundary conditions at the interface between the foundation and the halfspace are considered, and several parametric studies are conducted to assess the influence of either type of boundary conditions upon each of the possible modes of vibration. Results for massive and massless foundations are presented in time and frequency domains for impulsive and harmonic excitations, respectively. A time domain boundary element method (BEM) developed by the authors for the solution of a class of 3-D soil-structure interaction (SSI) problems is used for all the analyses reported in this work. The accuracy and efficiency of the method and the BEM models developed in this work are assessed on the basis of comparison studies with published results. 相似文献