Mathematical Modeling of the Aeroelastic Response of a Disk Having a Nonlinear Elastic Suspension and Interacting with a Layer of Viscous Gas

IF 0.4 Q4 ENGINEERING, MECHANICAL Journal of Machinery Manufacture and Reliability Pub Date : 2024-07-27 DOI:10.1134/S1052618824700249
V. S. Popov, A. A. Popova
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Abstract

In this paper, a mathematical model of nonlinear aeroelastic oscillations of a disk that has a suspension with hardening cubic nonlinearity and interacts with a layer of viscous gas pulsating due to a specified disturbance on its contour is presented. An asymptotic analysis, which made it possible to reduce the initial model to the generalized Duffing equation, based on the solution of which the main aeroelastic response of the disk and its phase shift were found using the harmonic balance method, was carried out. The characteristics in particular cases provide a transition to an incompressible viscous fluid and a linear elastic suspension, while their numerical study made it possible to establish that the compressibility of the gas leads to an increase in the values of the resonant frequencies and an increase in the amplitudes of the disk oscillations. Calculations showed the possibility of suppressing unstable oscillations of the disk near resonant frequencies by changing the thickness of the gas layer. The obtained results can be used to study the dynamics of gas and liquid dampers and supports, as well as sensitive elastic elements of pressure sensors.

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具有非线性弹性悬架并与粘性气体层相互作用的圆盘的气动弹性响应数学建模
摘要 本文提出了一个圆盘非线性气动弹性振荡的数学模型,该圆盘的悬挂物具有硬化立方非线性,并且由于其轮廓上的特定扰动而与一层脉动粘性气体相互作用。通过渐近分析,可以将初始模型简化为广义达芬方程,并在此基础上利用谐波平衡法求解出圆盘的主要气动弹性响应及其相移。在特殊情况下,其特征提供了向不可压缩粘性流体和线性弹性悬浮物的过渡,而对其进行的数值研究可以确定,气体的可压缩性导致共振频率值的增加和圆盘振荡幅度的增加。计算结果表明,通过改变气体层的厚度,可以抑制圆盘在共振频率附近的不稳定振荡。所得结果可用于研究气体和液体阻尼器和支架的动力学,以及压力传感器的敏感弹性元件。
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来源期刊
CiteScore
0.80
自引率
33.30%
发文量
61
期刊介绍: Journal of Machinery Manufacture and Reliability  is devoted to advances in machine design; CAD/CAM; experimental mechanics of machines, machine life expectancy, and reliability studies; machine dynamics and kinematics; vibration, acoustics, and stress/strain; wear resistance engineering; real-time machine operation diagnostics; robotic systems; new materials and manufacturing processes, and other topics.
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