周期性道砟轨道中弯曲波的传播特性

IF 0.3 4区工程技术 Q4 ACOUSTICS

Noise Control Engineering Journal Pub Date : 2023-07-01 DOI:10.3397/1/377120

Q. Feng, Zhou Yang, W. Guo, Jianfei Lu, Yuxiong Liang

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引用次数: 0

摘要

研究了道砟轨道的垂直振动带隙特性。将钢轨简化为具有双层周期支撑的梁。采用平面波展开法研究了钢轨作为Timoshenko梁的色散特性。利用矩阵反演的特殊数学解，求解了具有复杂边界条件的Timoshenko梁的特征值方程，这是传统平面波展开法难以解决的问题。通过实验得到的轨道振动传递特性，验证了周期轨道结构中弯曲波的带隙。本文详细分析了带隙频率的物理意义。此外，与以往的研究相比，我们给出了更精确的周期轨道结构Bragg带隙频率预测模型。通过实验得到的轨道振动传递特性，验证了周期轨道结构中弯曲波的带隙。分析了温度力对弯曲波带隙特性的影响，并给出了温度力的灵敏度指标。结果表明，带隙频率的平方与纵向温度力呈线性关系，这与以往的研究结果有所不同。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The propagation characteristics of flexural wave in periodic ballast track

The vertical vibration band gap characteristics of the ballast track were investigated in this paper. The rail was simplified as a beam with double layer of periodic supports. The dispersion characteristics were studied considering the rail as Timoshenko beam, using the plane wave expansion method. The eigenvalue equation of the Timoshenko beam with complex boundary conditions, which was a problem for the traditional plane wave expansion method, has been solved using special mathematical solution of matrix inversion. The band gap of the flexural waves in periodic track structure was confirmed by the rail vibration transmission characteristics obtained from the experiments. The physical significance of band gap frequency was analyzed in detail in this paper. In addition, we give a more accurate prediction model of Bragg band gap frequency of periodic track structure compared previous studies. The band gap of the flexural waves in periodic track structure was confirmed by the rail vibration transmission characteristics obtained from the experiments. The influence of temperature force on the band gap characteristics of the flexural waves was also analyzed, and a sensitivity index of temperature force was given as a result. The results indicate that the square of the band gap frequency has a linear relation with the longitudinal temperature force, which is different from the previous research.

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来源期刊

Noise Control Engineering Journal 工程技术-工程：综合

CiteScore

0.90

自引率

25.00%

发文量

审稿时长

3 months

期刊介绍： NCEJ is the pre-eminent academic journal of noise control. It is the International Journal of the Institute of Noise Control Engineering of the USA. It is also produced with the participation and assistance of the Korean Society of Noise and Vibration Engineering (KSNVE). NCEJ reaches noise control professionals around the world, covering over 50 national noise control societies and institutes. INCE encourages you to submit your next paper to NCEJ. Choosing NCEJ: Provides the opportunity to reach a global audience of NCE professionals, academics, and students; Enhances the prestige of your work; Validates your work by formal peer review.