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Wang Zhongmin Zhao Fengqun Feng Zhenyu Liu Hongzhao 《Acta Mechanica Solida Sinica》2000,13(3):262-270
Based on the differential constitutive relationship of linear viscoelastic, material, a solid-liquid coupling vibration equation
for viscoelastic pipe conveying fluid is derived by the D'Alembert's principle. The critical flow velocities and natural frequencies
of the cantilever pipe conveying fluid with the Kelvin model (flutter instability) are calculated with the modified finite
difference method in the form of the recurrence formula. The curves between the complex frequencies of the first, second and
third mode and flow velocity of the pipe are plotted. On the basis of the numerical, calculation results, the dynamic behaviors
and stability of the pipe are discussed. It should be pointed out that the delay time of viscoelastic material with the Kelvin
model has a remarkable effect on the dynamic characteristics and stability behaviors of the cantilevered pipe conveying fluid,
which is a gyroscopic non-conservative system. 相似文献
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IntroductionItiswell_knownthatsimplysupportedpipesconveyingfluidarenamedasgyroscopiccon servativesystembecauseitsenergyattheexitisequaltothatattheenter[1].Thissystemwasstudiedbysomescholarsathomeandabroad .Paidoussis[2 ]studiedtheproblemofdynamicsandstabi… 相似文献
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A mathematical formulation is proposed to investigate the nonlinear flow-induced dynamic characteristics of a cantilevered pipe conveying fluid from macro to micro scale. The model is developed by using the extended Hamilton's principle in conjunction with the inextensibility condition and laminar and turbulent flow profiles as well as modified couple stress theory. The current model is capable of recovering the classical model of cantilevered pipe conveying fluid by neglecting the couple stress effect. The governing equation of motion is presented in dimensionless form in a convenient and usable manner. To solve the problem at hand, the integro-partial-differential equation of motion is discretized into a set of ordinary differential equations via Galerkin method. Afterward, a Runge–Kutta's finite difference scheme is employed to evaluate the nonlinear dynamic response of the cantilevered pipe conveying fluid. A parametric study is carried out to examine the influences of mass parameter and dimensionless mean flow velocity on the nonlinear dynamic characteristics of the cantilevered pipe conveying fluid in post-flutter region. The role of size-dependency in the nonlinear behavior of pipe is explored by converting the new set of dimensionless parameters into the conventional one. Eventually, some convergence studies are performed to indicate the reliability of present results. 相似文献
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Xiaodong Yang Tianzhi Yang Jiduo Jin 《Acta Mechanica Solida Sinica》2007,20(4):350-356
The dynamic stability in transverse vibration of a viscoelastic pipe for conveying pulsative fluid is investigated for the simply-supported case.The material property of the beam- model pipe is described by the Kelvin-type viscoelastic constitutive relation.The axial fluid speed is characterized as simple harmonic variation about a constant mean speed.The method of mul- tiple scales is applied directly to the governing partial differential equation without discretization when the viscoelastic damping and the periodical excitation are considered small.The stability conditions are presented in the case of subharmonic and combination resonance.Numerical results show the effect of viscosity and mass ratio on instability regions. 相似文献
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具有弹性支承的圆管在内外部流激发下动力特性及实验研究 总被引:1,自引:0,他引:1
本文建立了具有弹性支承的圆管在内外部流激发下的力学模型.推导了内部流与静止外部流作用下圆管的耦联振动方程.提出了确定弹性系数的方法.采用振型叠加法分析圆管动力特性问题.对内部流与静止外部流情况下圆管固有频率进行了计算和测量,计算值与实验值吻合较好.另外,对内外流同时激发下圆管的固有频率进行了测量,得到若干对工程实际有用的结论. 相似文献
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In this study, the forced vibration of a curved pipe conveying fluid resting on a nonlinear elastic foundation is considered. The governing equations for the pipe system are formed with the consideration of viscoelastic material, nonlinearity of foundation, external excitation, and extensibility of centre line. Equations governing the in-plane vibration are solved first by the Galerkin method to obtain the static in-plane equilibrium configuration. The out-of-plane vibration is simplified into a constant coefficient gyroscopic system. Subsequently, the method of multiple scales (MMS) is developed to investigate external first and second primary resonances of the out-of-plane vibration in the presence of three-to-one internal resonance between the first two modes. Modulation equations are formed to obtain the steady state solutions. A parametric study is carried out for the first primary resonance. The effects of damping, nonlinear stiffness of the foundation, internal resonance detuning parameter, and the magnitude of the external excitation are investigated through frequency response curves and force response curves. The characteristics of the single mode response and the relationship between single and two mode steady state solutions are revealed for the second primary resonance. The stability analysis is carried out for these plots. Finally, the approximately analytical results are confirmed by the numerical integrations. 相似文献
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Nonlinear dynamics of a pipe conveying pulsating fluid with parametric and internal resonances 总被引:1,自引:0,他引:1
In this paper, the nonlinear planar vibration of a pipe conveying pulsatile fluid subjected to principal parametric resonance
in the presence of internal resonance is investigated. The pipe is hinged to two immovable supports at both ends and conveys
fluid at a velocity with a harmonically varying component over a constant mean velocity. The geometric cubic nonlinearity
in the equation of motion is due to stretching effect of the pipe. The natural frequency of the second mode is approximately
three times the natural frequency of the first mode for a range of mean flow velocity, resulting in a three-to-one internal
resonance. The analysis is done using the method of multiple scales (MMS) by directly attacking the governing nonlinear integral-partial-differential
equations and the associated boundary conditions. The resulting set of first-order ordinary differential equations governing
the modulation of amplitude and phase is analyzed numerically for principal parametric resonance of first mode. Stability,
bifurcation, and response behavior of the pipe are investigated. The results show new zones of instability due to the presence
of internal resonance. A wide array of dynamical behavior is observed, illustrating the influence of internal resonance. 相似文献
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旋转叶片是航空发动机重要零件之一,服役条件十分恶劣,常常因振动过量导致其失效.为了合理设计含冷却通道的叶片,保证其可靠性与安全性,需对含冷却通道的叶片的振动特性进行研究.基于EulerBernoulli梁理论,将叶片简化为含两通道的悬臂旋转输流管,考虑了通道轴线偏移量对流体动能的影响,采用Lagrange原理结合假设模态法建立包含双陀螺效应的运动控制方程,采用降阶扩维的方法求解系统特征值.研究两通道模型的流速比、转速和长细比等对前3阶特征根曲线影响.将文章模型退化为简支单通道输流管,与文献报道结果进行对比,部分验证建模方法的正确性.研究发现:在相同的管道截面积下,两通道模型的临界流速值大于单通道模型的;旋转运动引入的陀螺效应会使得第2, 3阶特征根轨迹发生绕圈现象,并多次穿越虚轴;随着长细比的增大,系统会表现出类似非旋转的悬臂输流管的动力学行为;系统的横向位移模态响应呈现出行波特性,且在不同参数组合下,阻尼因子对前3阶模态产生不同的增强或减弱作用. 相似文献
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Divergence and flutter instabilities of pipes conveying fluid with fractional viscoelastic model has been investigated in the present work. Attention is concentrated on the boundaries of the stability. Based on the Euler–Bernoulli beam theory for structural dynamics, viscoelastic fractional model for damping and, plug flow model for fluid flow, equation of motion has been derived. The effects of gravity, and distributed follower forces are also considered. By transferring the equation of motion to the Laplace domain and using the Galerkin method, the characteristic equations are obtained. By solving the eigenvalue problem, frequencies and dampings of the system have been obtained versus flow velocity. Some numerical test cases have been studied with viscoelastic fractional model and the effect of the fractional derivative order and the retardation time is investigated for various boundary conditions.
相似文献13.
The differential quadrature method has been applied to investigate vibrations of viscoelastic thin plate with variable thickness. Firstly, the governing equations are derived in terms of the thin-plate theory and the two-dimensional viscoelastic differential constitutive relation. Then, the convergence of the method is demonstrated based on the differential equation of uniform thickness elastic square plate, which is reduced from the differential equation of viscoelastic plate with varying thickness. Lastly, the effects of aspect ratio, thickness ratio and dimensionless delay time on the vibrations of the linear thickness viscoelastic plate with different boundary conditions have been studied. 相似文献
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本文主要研究通过调控集中质量对悬臂输流管稳定性和振动模态特性的影响规律,为输流管动力学性能的可控性提供理论指导和实验依据. 首先基于扩展的哈密顿原理,建立了含集中质量悬臂输流管的非线性动力学理论模型. 基于线性动力学特性分析,研究发现集中质量沿管道轴向位置变化对输流管发生颤振失稳的临界流速有重要影响.并通过伽辽金前四阶模态截断处理线性矩阵方程式,定性地分析了集中质量位置与质量比的变化对于输流管稳定性影响的变化.实验结果表明, 输流管的颤振失稳模态随集中质量位置的变化发生了转迁. 此外,基于动力学理论分析, 发现集中质量比值对失稳临界流速也有重要的影响,且主要取决于集中质量的安装位置. 基于非线性特性,进一步分析了集中质量对输流管振动幅值的影响. 实验和理论研究发现,集中质量位置从固定端向自由端变化时, 输流管振幅表现出先增大后减小趋势,且振动模态也从二阶转迁到三阶.本研究有望为输流管振动驱动应用提供理论支撑与指导意义. 相似文献
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Linear surface gravity waves on Maxwell viscoelastic fluids with finite depth are studied in this paper. A dispersion equation describing the spatial decay of the gravity wave in finite depth is derived. A dimensionless memory (time) number 0 is introduced. The dispersion equation for the pure viscous fluid will be a specific case of the dispersion equation for the viscoelastic fluid as θ=0. The complex dispersion equation is numerically solved to investigate the dispersion relation. The influences of θ and water depth on the dispersion characteristics and wave decay are discussed. It is found that the role of elasticity for the Maxwell fluid is to make the surface gravity wave on the Maxwell fluid behave more like the surface gravity wave on the inviscid fluid. 相似文献
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含集中质量悬臂输流管的稳定性与模态演化特性研究 总被引:2,自引:0,他引:2
本文主要研究通过调控集中质量对悬臂输流管稳定性和振动模态特性的影响规律,为输流管动力学性能的可控性提供理论指导和实验依据. 首先基于扩展的哈密顿原理,建立了含集中质量悬臂输流管的非线性动力学理论模型. 基于线性动力学特性分析,研究发现集中质量沿管道轴向位置变化对输流管发生颤振失稳的临界流速有重要影响.并通过伽辽金前四阶模态截断处理线性矩阵方程式,定性地分析了集中质量位置与质量比的变化对于输流管稳定性影响的变化.实验结果表明, 输流管的颤振失稳模态随集中质量位置的变化发生了转迁. 此外,基于动力学理论分析, 发现集中质量比值对失稳临界流速也有重要的影响,且主要取决于集中质量的安装位置. 基于非线性特性,进一步分析了集中质量对输流管振动幅值的影响. 实验和理论研究发现,集中质量位置从固定端向自由端变化时, 输流管振幅表现出先增大后减小趋势,且振动模态也从二阶转迁到三阶.本研究有望为输流管振动驱动应用提供理论支撑与指导意义. 相似文献
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Transverse natural vibrations of an extended segment of a pipeline conveying a uniformly moving fluid are studied. The mechanical
model under study takes into account the pipe and fluid inertia forces and the moment of the Coriolis and centrifugal forces
due to the medium motion. It is assumed that both ends are rigidly fixed and the elastic characteristics are constant along
the pipe. A mathematical model is developed on the basis of a generalized procedure of separation of variables, and a boundary
value problemfor the eigenvalues and eigenfunctions (natural frequencies and vibration shapes) is posed. Ferrari’s formulas
are used to solve the fourth-order complex characteristic equation for the wave parameter, and a closed procedure of numerical-analytical
determination of roots of the secular equation for the frequencies is obtained. The frequency curves for the firsts two vibration
modes against the dimensionless velocity and inertia parameters are constructed. The forms of the observed motions at different
times are obtained. Several effects are revealed indicating that there is a dramatic quantitative and qualitative difference
between these vibrations and the standard vibrations corresponding to the case of immovablemedium. We discover the absence
of a rectilinear configuration of the axis, the variable number and location of nodes, their inconsistency with the mode number,
and some other effects. 相似文献
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HOPF BIFURCATION OF A NONLINEAR RESTRAINED CURVED PIPE CONVEYING FLUID BY DIFFERENTIAL QUADRATURE METHOD 总被引:5,自引:0,他引:5
WangLin NiQiao HuangYuying 《Acta Mechanica Solida Sinica》2003,16(4):345-352
This paper proposes a new method for investigating the Hopf bifurcation of a curved pipe conveying fluid with nonlinear spring support. The nonlinear equation of motion is derived by forces equilibrium on microelement of the system under consideration. The spatial coordinate of the system is discretized by the differential quadrature method and then the dynamic equation is solved by the Newton-Raphson method. The numerical solutions show that the inner fluid velocity of the Hopf bifurcation point of the curved pipe varies with different values of the parameter,nonlinear spring stiffness. Based on this, the cycle and divergent motions are both found to exist at specific fluid flow velocities with a given value of the nonlinear spring stiffness. The results are useful for further study of the nonlinear dynamic mechanism of the curved fluid conveying pipe. 相似文献
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IntroductionFluidinducedvibrationexistsinmanyengineeringfields.Thevibrationandstabilityofpipeconveyingfluidisatypicalexample.Manyscholarsathomeandabroadhavealwaysbeeninterestedinthissubjectandmadealotofstudiesofit.Particularlyduringrecentdecades,somere… 相似文献
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输流管道广泛应用于机械、航空、核电和石油等重要工程领域.为防止管道结构因流致振动破坏造成的损失, 很有必要对其稳定性、动力学响应及其调控进行深入研究.本文提出一种由惯容器、弹簧和阻尼器并联组成的减振器模型, 研究了这种接地惯容减振器对悬臂输流管稳定性和非线性振动的影响. 首先, 基于哈密顿原理给出了带有接地惯容减振器非保守系统的非线性动力学模型; 然后, 利用高阶伽辽金方法对非线性方程进行离散化; 最后, 分别从线性和非线性角度分析了不同减振器参数下输流管道的被动控制效果, 着重讨论了惯容系数和减振器安装位置对悬臂管稳定性和动态响应的影响机制.线性理论模型的研究结果显示, 接地惯容减振器可显著影响悬臂管的失稳临界流速, 故通过调节减振器参数能有效提高输流管道的稳定性;惯容系数和弹簧刚度对系统稳定性的控制效果还与减振器的安装位置密切相关.非线性理论模型的分析结果显示, 惯容系数和减振器位置对输流管的非线性动态响应也有显著影响, 且这种影响还依赖于管道的流速取值; 在某些参数条件下, 减振器还可使输流管道由周期运动演化为复杂的混沌行为. 本文研究结果表明, 通过设计合理的惯容式减振器参数, 可提升悬臂输流管道的稳定性并有效抑制其颤振幅值. 相似文献
