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复合筒型基础是一种新型的宽浅式基础型式。在风、波浪、海流等动力荷载的作用下,复合筒型基础内外地基孔隙水压力的变化对结构安全产生影响。模拟了复合筒型基础受到的风浪流荷载,并将风浪流荷载合理叠加,采用三维有限元方法分析了风浪流联合作用下复合筒型基础地基动力响应规律。同时对复合筒型基础内外地基孔隙水压力的变化规律及液化范围进行了系统分析,通过分析发现:复合筒型基础附近海床液化深度随着饱和度、渗透系数、波浪周期、水深的增大而增大,随着泊松比的增大而减小。 相似文献
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列车运行时由轨道不平顺引起的地基振动研究 总被引:2,自引:1,他引:1
采用半解析法研究了列车荷载作用下列车-轨道-饱和地基系统的耦合振动问题。研究模型共分为3部分:车体简化为一个多刚体系统,在车轮与钢轨之间引入线性Hertizian弹簧接触模型模拟轮轨动力相互作用、采用离散轨枕支撑的弹性Euler梁来模拟轨道系统、下卧土体采用多孔饱和半空间模型。列车荷载分为轴重和由轨道不平顺引起的轮轨动力相互作用力。采用Fourier变换分别求解各子系统的控制方程,并通过动力子结构法对各子系统进行耦合。土体在时域内的动力响应通过快速Fourier变换求得。在分析了轮轨动力相互作用力的基础上,研究了轮轨动力作用力和列车轴重作用下饱和地基的动力响应,并分析了轨枕间距和土体渗透系数对饱和地基振动响应的影响。研究表明,轮轨动力作用力对地基远场振动有重要贡献,同时枕木间距对轨道与地基振动响应有较大影响。 相似文献
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公路交通荷载作用下分层地基的三维动响应分析 总被引:4,自引:1,他引:3
根据高速公路路基的实际情况,建立了三维分层地基模型,分别考虑了刚性路面和柔性路面的情况,利用传递矩阵法获得了置于刚性基岩上的层状地基和分层半无限地基的刚度矩阵,将车辆荷载简化为矩形均布移动荷载,利用Fourier变换方法得到了层状地基系统在交通荷载作用下的三维振动解,并用快速傅立叶逆变换方法得到了数值结果,与模型试验结果进行了比较,显示出了较好的一致性,同时分析了荷载大小、土层性状对响应结果的影响,得出了一些有意义的结论。研究结果可为路面施工设计及路基动力响应分析提供参考。 相似文献
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The vibrations of railway tracks on a poroelastic half‐space generated by moving trains are investigated through a vehicle–track–ground coupling model. The theoretical model incorporates a vehicle, a track, and a fully saturated poroelastic half‐space soil medium. The source of vibration excitation is divided into two components: the quasi‐static loads and the dynamic loads. The quasi‐static loads are related to the static component of the axle loads, whereas the dynamic loads are due to the dynamic wheel–rail interaction. A linear Hertizian contact spring is introduced between each wheelset and the rail to consider the dynamic loads. Biot's dynamic theory is used to characterize the poroelastic half‐space soil medium. Using the Fourier transform, the governing equations for the track–ground system are solved and the numerical results are presented for a single axle vehicle model. The different dynamic characteristics of the elastic soil medium and the saturated poroelastic medium are investigated. In addition, the different roles of the moving axle loads and the roughness‐induced dynamic loads are identified. It is concluded that the vibration level of the free field off the track predicted by the poroelastic soil medium is smaller than that predicted by the elastic soil medium for vehicle speed below the Rayleigh wave speed of the poroelastic half‐space, whereas it is larger for vehicle speed above the Rayleigh wave speed. The dynamic loads play an important role in the dynamic responses of the track–ground system. Copyright © 2010 John Wiley & Sons, Ltd. 相似文献
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The fatigue life of offshore wind turbines strongly depends on the dynamic behaviour of the structures including the underlying soil. To diminish dynamic amplification and avoid resonance, the eigenfrequency related to the lowest eigenmode of the wind turbine should not coalesce with excitation frequencies related to strong wind, wave and ice loading. Typically, lateral response of monopile foundations is analysed using a beam on a nonlinear Winkler foundation model with soil–pile interaction recommended by the design regulations. However, as it will be shown in this paper, the guideline approaches consequently underestimate the eigenfrequency compared to full-scale measurements. This discrepancy leads the authors to investigate the influence of pore water pressure by utilising a numerical approach and consider the soil medium as a two-phase system consisting of a solid skeleton and a single pore fluid. In the paper, free vibration tests are analysed to evaluate the eigenfrequencies of offshore monopile wind turbine foundations. Since the stiffness of foundation and subsoil strongly affects the modal parameters, the stiffness of saturated soil due to pore water flow generated by cyclic motion of monopiles is investigated using the concept of a Kelvin model. It is found that the permeability of the subsoil has strong influence on the stiffness of the wind turbine that may to some extent explain deviations between experimental and computational eigenfrequencies. 相似文献
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Xuecheng Bian Chong Cheng Jianqun Jiang Renpeng Chen Yunmin Chen 《Acta Geotechnica》2016,11(2):281-294
High-speed train induced vibrations of track structure and underlying soils differ from that induced by low-speed train. Determining the critical speed of train operation remains difficult due to the complex properties of the track, embankment and ground. A dynamic analysis model comprising track, embankment and layered ground was presented based on the two-and-half-dimensional (2.5D) finite elements combining with thin-layer elements to predict vibrations generated by train moving loads. The track structure is modeled as an Euler–Bernoulli beam resting on embankment. The train is treated as a series of moving axle loads; the embankment and ground are modeled by the 2.5D finite elements. The dynamic responses of the track structure and the ground under constant and vibrating moving loads at various speeds are presented. The results show that the critical speed of a train moving on an embankment is higher than the Rayleigh wave velocity of the underlying soil, attributed to the presence of the track structure and the embankment. It is found that the dynamic response of ground induced by moving constant loads is mostly dominated by train speed. While for the moving load with vibration frequency, the ground response is mostly affected by the vibration frequency instead of train speed. Mach effect appears when the train speed exceeds the critical speed of the track–embankment–ground system. 相似文献
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Xiangshui offshore wind power station is located in shore water near Chengang of Jiangsu province. As the pile groups of the wind turbines have complicated engineering characteristics, their design is one of the technical difficulties of the project. Deformation behaviors of the piles foundation of Xiangshui 2MW wind turbine generator system are computed and analyzed under static loads and cyclic wind loads. The results show that deformations of the foundation are allowable; and the deformations due to static loads are comparatively smaller than that under the containing cyclic wind loads condition. With the depth increasing, the horizontal displacement and its influence range decrease; while the maximal vertical settlement is steady and vertical influence range increases. Deformation characteristics of pile-soil system depend not only on the loads combination of the subject, but also on the soil conditions. 相似文献
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S. Bahramiasl M. Abbaspour M. Karimirad 《International Journal of Environmental Science and Technology》2018,15(12):2531-2544
Limited fossil resources, daily increasing rate of demand for energy and the environmental pollution fact have made people revert to renewable sources of energy as a solution. One type of renewable energy is offshore wind energy which has high potential without any sound and visual noises. Recently, a lot of researchers have carried out on the issue of offshore wind turbine. Because of incapability of most of software programs to simulate gyroscopic effect of rotating rotors, in this articles a significant effort has been made to fabricate and test an offshore wind turbine under different rotor rotation velocities and different heading angle of wind so as to obtain the effects of these parameters on structure responses. Study on the response of a wind turbine under environmental loads has had a notable importance due to the fact that structure behavior can strongly affect procedure of modeling and optimizing wind turbine structures. On the other hand, frequency-domain structural response of a wind turbine can also make engineers be informed about of appropriate mooring system for a special environmental condition. Consequently, it has been observed that increasing the rotor rotation velocity leads the peak of spectrums shift to a higher frequency due to the gyroscopic effect appeared as a damping term, and changing heading angle of wind may lead to a change in heave and pitch amplitudes in the time domain response, and heave, sway and surge motion in frequency response. 相似文献
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国华通辽风电场三期工程梁板式桩筏基础性状数值分析 总被引:1,自引:0,他引:1
风力发电作为发展最快的新型能源之一,得到越来越多的关注,耦合荷载作用下风机基础的优化设计成为一个重要的问题。首先对商业有限元的计算精度以及对耦合荷载的模拟能力进行验证,在该基础上对国华通辽风电场梁板式桩筏基础进行模拟分析,重点讨论在耦合荷载作用下梁板式基础管桩、肋梁和环梁的受力和变形特性,并将有限元计算得出的基础构件内力与规范设计方法计算结果进行对比分析。与此同时,分析风机基础桩土分担比,研究耦合荷载作用下土体的承载作用。计算结果可为实际工程的设计提供参考依据。 相似文献
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桩-筏复合地基是控制高速铁路等路基工后沉降的一种常用地基处理技术,然而针对其在不同振动波形荷载下的动力响应特性对比研究相对较少。基于大型模型系统,开展砂土地基中单桩桩-筏复合地基大比例模型试验研究,着重分析不同振动波形加载下单桩桩-筏复合地基的累积沉降、桩底-桩侧土动土应力比、加速度及速度传递等变化规律,初步探讨振动波形对单桩桩-筏复合地基承载特性的影响机制。试验结果表明,M波振动波形对地基累积沉降的影响较正弦波振动波形对地基累积沉降的影响略大一些,对桩底-桩侧土动应力比的影响则反之;振动响应加速度和速度随着加载频率及振幅幅值的增大而增大。相关研究成果可为单桩桩-筏复合地基的理论分析与计算提供参考依据。 相似文献
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Acta Geotechnica - Helical anchors are bearing elements that can resist uplift loads by a combination of shaft and helical plate bearing. The application of helical piles as offshore wind turbine... 相似文献
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交通荷载作用下公路路基工作区深度研究 总被引:3,自引:0,他引:3
根据路面不平整实测资料,获得了汽车动荷载的计算模型和参数,并利用此荷载模式来分析公路结构的动力响应。考虑到公路结构的三维分层性状,利用Fourier变换技术和求解层状结构的精确刚度矩阵法,研究了公路结构在移动汽车荷载作用下的动力响应问题。为了方便工程应用,利用Odemark厚度和模量的当量转换公式,将公路结构简化为由路面、路基及地基组成的3层体系,并以此为基础分析了路基动应力的衰减规律,同时重点研究了汽车轴载大小、当量路面厚度及路基模量对路基工作区深度的影响,最后建议了路基工作区深度的定量表达式,研究结果可为公路路基设计提供参考。 相似文献
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Analytical solutions for Euler‐Bernoulli Beam on Pasternak foundation subjected to arbitrary dynamic loads 
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下载免费PDF全文 In this paper, the dynamic response of an infinite beam resting on a Pasternak foundation and subjected to arbitrary dynamic loads is developed in the form of analytical solution. The beam responses investigated are deflection, velocity, acceleration, bending moment, and shear force. The mechanical resistance of the Pasternak foundation is modeled using two parameters, that is, one accounts for soil resistance due to compressive strains in the soil and the other accounts for the resistance due to shear strains. Because the Winkler model only represents the compressive resistance of soil, comparatively, the Pasternak model is more realistic to consider shear interactions between the soil springs. The governing equation of the beam is simplified into an algebraic equation by employing integration transforms, so that the analytical solution for the dynamic response of the beam can be obtained conveniently in the frequency domain. Both inverse Laplace and inverse Fourier transforms combined with convolution theorem are applied to convert the solution into the time domain. The solutions for several special cases, such as harmonic line loads, moving line loads, and travelling loads are also discussed and numerical examples are conducted to investigate the influence of the shear modulus of foundation on the beam responses. The proposed solutions can be an effective tool for practitioners. Copyright © 2017 John Wiley & Sons, Ltd. 相似文献
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高速铁路基床现场循环加载试验研究 总被引:2,自引:0,他引:2
详细地掌握高速铁路路基的动态特性与累积变形特性是对其进行合理设计的基础。结合达成线的建设,修建了路基试验段,埋设测试元件,使用新型的ZSS50循环加载设备,对试验段路基进行了现场循环加载试验研究,模拟了不同轴重列车的动力作用,分析了路基的动态特性及沉降规律。测试结果表明:路基的动态指标及工后沉降均满足设计要求,列车轴重对路基的动态特性影响显著;路基面动态响应沿横向的分布是不均匀的,轨下位置最大,轨枕端部位置次之,线路中线处最小,总体上呈马鞍形分布;动态响应随路基深度的增加而逐渐减小,在基床表层范围内衰减较快;ZSS50循环加载设备 可准确模拟不同轴重、不同时速列车对线路的动力作用,且操作简单、坚固耐用,是研究铁路轨道及路基动态特性的理想设备。 相似文献
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为探讨海上风机在风、浪等水平往复循环荷载下大直径单桩基础的循环弱化特性,设计了稳定输出长期循环荷载的机械加载装置,开展了软黏土中长期水平循环荷载下海上风电大直径单桩基础和传统长桩基础的模型试验对比研究。根据API给出的骨干曲线和Masing二倍准则构建循环荷载下的p-y(荷载-位移)曲线,并借鉴前人工作,采用累积塑性应变描述软黏土的不排水抗剪强度弱化,提出了分析大周数水平循环荷载下单桩基础循环弱化的理论方法。该方法将循环荷载次数、幅值等外界条件与桩周土体的循环弱化特性建立联系,以适应海洋环境复杂多变的水平循环荷载形式。通过模型试验和理论研究认为,大直径单桩基础因刚度较大,在同样的水平力循环荷载条件下,其抵抗循环荷载的能力明显优于传统长桩。在海上风机大直径单桩的设计中采用基于黏土残余强度的循环后稳定水平承载力更为合理。 相似文献
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采用有限元数值计算方法分析了地下浅埋结构的非线性动力响应,得到了结构在不同时刻的动态响应模拟计算数据。该地下浅埋结构由金属壳体和上覆土体共同组成,对于土体和金属壳体分别采用Drucker-Prager和Mohr-Coulomb屈服准则以及弹塑性本构关系,分析其非线性动态位移场和应力场。根据爆炸试验数据,研究了爆炸冲击波随距离和时间的变化过程,并且将其作为作用在结构内部的爆炸荷载。有限元数值模拟结果表明,采用非线性有限元模拟爆炸冲击荷载作用下地下浅埋结构的弹塑性动力响应是有效的,并且证明所设计的地下防护结构是安全的。 相似文献
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An Experimental and Theoretical Approach on the Modeling of Sliding Response of Rock Wedges under Dynamic Loading 总被引:1,自引:1,他引:0
The stability of rock slopes under dynamic loading in mining and civil engineering depends upon the slope geometry, mechanical properties of rock mass and discontinuities, and the characteristics of dynamic loads with time. The wedge failure is one of the common forms of slope failures. The authors presented some stability conditions for rock wedges under dynamic loading and they confirmed their validity through the laboratory experimental studies in a previous paper in 2000, which is often quoted by others to validate their softwares, including some commercial software. In this study, the authors investigate the sliding responses of rock wedges under dynamic loads rather than the initiation of wedge sliding. First, some laboratory model tests are described. On the basis of these model tests on rock wedges, the theoretical model proposed previously is extended to compute the sliding responses of rock wedges in time domain. The proposed theoretical model is applied to simulate the sliding responses of rock wedge model tests and its validity is discussed. In the final part, the method proposed is applied to actual wedge failures observed in 1995 Dinar earthquake and 2005 Pakistan–Kashmir earthquake, and the results are discussed. 相似文献