计算粘弹性阻尼系统频率响应函数的高效物理维度还原法

IF 2.3 3区 工程技术 Q2 ACOUSTICS Journal of Vibration and Control Pub Date : 2024-09-14 DOI:10.1177/10775463241283180
Minsheng Cao, Yu Fu, Shuqi Zhu, Ling Ling, Li Li
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引用次数: 0

摘要

频率响应函数(FRFs)是动态问题的关键所在,然而,对于粘弹性阻尼系统来说,它却面临着计算上的挑战。本文提出了一种基于物理空间的还原方法,用于预测涉及标准线性固体模型的大规模粘弹性阻尼系统的频率响应函数。基于原始系统矩阵和粘弹性参数构建了一个物理维度子空间,该子空间可通过递归方式轻松生成。然后开发一种投影基生成算法,在物理维子空间内生成标准正交基。借助标准正交基和基于矩匹配的还原方法,提出了一种基于物理空间的还原方法,用于有效预测大规模粘弹性阻尼系统的 FRF。与广泛使用的状态空间还原法不同,该方法所还原的系统可以保留系统的物理结构,从而捕捉到物理意义。通过理论和数值分析,所提出的基于物理空间的方法比基于状态空间的还原方法更精确、更高效。
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An efficient physics-dimension-based reduction method for computing frequency response functions of viscoelastically damped systems
The frequency response functions (FRFs) are of critical interest to dynamic problems, however, they suffer from computational challenges for viscoelastically damped systems. In this paper, a physics-space-based reduction method is proposed for predicting the FRFs of large-scale viscoelastically damped systems involving the standard linear solid model. A physics-dimension subspace is constructed based on original system matrices and viscoelastic parameters, which can be easily generated by using a recursive manner. A projection basis generation algorithm is then developed to generate a standard orthonormal basis within the physics-dimension subspace. With the help of the standard orthonormal basis and the moment-matching-based reduction method, a physics-space-based reduction method is proposed for efficiently predicting the FRFs of large-scale viscoelastically damped systems. Unlike the widely used state-space reduction method, the reduced system of the proposed method can preserve system’s physical structure so that the physical meaning can be captured. Using both theoretical and numerical analyses, the proposed physics-space-based method is more accurate and efficient than the state-space-based reduction method.
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来源期刊
Journal of Vibration and Control
Journal of Vibration and Control 工程技术-工程:机械
CiteScore
5.20
自引率
17.90%
发文量
336
审稿时长
6 months
期刊介绍: The Journal of Vibration and Control is a peer-reviewed journal of analytical, computational and experimental studies of vibration phenomena and their control. The scope encompasses all linear and nonlinear vibration phenomena and covers topics such as: vibration and control of structures and machinery, signal analysis, aeroelasticity, neural networks, structural control and acoustics, noise and noise control, waves in solids and fluids and shock waves.
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