利用火车引起的自由振动对桥梁进行高分辨率频域分解模态分析

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-05-09 DOI:10.1177/13694332241252278
Tao Chen, Qiang Wang, Xiao-Jun Yao
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引用次数: 0

摘要

模态参数是结构的固有特性,可用于揭示铁路桥梁的性能。与环境荷载引起的随机振动相比,火车通过时产生的自由振动信号具有更高的信噪比,因此通常用于估算铁路桥梁的模态参数。然而,由于自由振动信号会随时间迅速衰减,因此可用的自由振动数据通常都是短时数据。在使用基于快速傅立叶变换的频谱估计方法对短时振动数据进行模态识别时,会出现一种称为频谱泄漏的现象,导致对某些结构模态的识别错误。本研究改进了用于铁路桥梁模态识别的经典频域分解(FDD)方法,通过基于自回归(AR)模型的方法计算出分辨率更高的自功率谱密度(PSD)和交叉PSD函数。与快速傅立叶变换技术相比,基于 AR 模型的方法提高了 PSD 函数的平滑度和分辨率。这些基于 AR 模型的 PSD 函数随后被用于 FDD 流程,以促进频率和模态形状识别,同时避免杂散噪声模态。随后,利用所提出的特征值拟合技术来估算阻尼比。通过分析数值模拟数据以及实际桥梁的振动数据,验证了所提出的方法,并与基于韦尔奇 PSD 的方法进行了比较。结果表明,修改后的 FDD 方法能够更有效地识别结构模态,即使在模态间距很近的情况下也是如此。
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High-resolution frequency domain decomposition for modal analysis of bridges using train-induced free-vibrations
Modal parameters are structural inherent characteristics that can be applied for revealing performance of railway bridges. Free vibration signals generated by a passage of train are commonly utilized to estimate the modal parameters of railway bridges due to their higher signal-to-noise ratios compared to random vibrations caused by ambient loads. However, since free vibration signals rapidly decay over time, the available free-vibration data is typically short-time. When using the fast Fourier transform-based spectral estimation method for modal identification from short-time vibration data, a phenomenon known as spectral leakage occurs, leading to miss-identification of some structural modes. In this study, the classical frequency domain decomposition (FDD) is improved for modal identification of railway bridges, in which the higher resolution auto-power spectral density (PSD) and cross-PSD functions are calculated through the autoregressive (AR) model-based method. The AR model-based method improves both the smoothness and resolution of the PSD functions compared to the fast Fourier transform technique. These AR model-based PSD functions are then employed in the FDD process to facilitate frequency and mode shape identification while avoiding spurious noise modes. The proposed eigenvalue fitting technique is subsequently utilized to estimate damping ratios. Numerical simulation data as well as vibration data from an actual bridge are analyzed to validate the proposed method, with a comparison made to the Welch’s PSD-based method. The results demonstrate that the modified FDD approach enables more effective identification of structural modes, even in the presence of closely-spaced modes.
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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