Journal
JOURNAL OF LOW FREQUENCY NOISE VIBRATION AND ACTIVE CONTROL
Volume 41, Issue 1, Pages 196-208Publisher
SAGE PUBLICATIONS LTD
DOI: 10.1177/14613484211038261
Keywords
Periodic track structure; elastic wave; defect states; supercell; localization
Categories
Funding
- National Key Research and Development Program of China [2018YFE0207100]
- Research Fund of China Academy of Railway Sciences [2020YJ118]
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The study utilizes the Floquet transform method and supercell technology to analyze defect states and the propagation characteristics of elastic waves in periodic track structures. The presence of defects disrupts the periodicity of the structure, leading to the formation of multiple defect states and enhancing vibration in neighboring structures.
To overcome the ill-conditioned matrix problem of the traditional transfer matrix method, the Floquet transform method and supercell technology are used to study the defect states of the periodic track structure. By solving the equations of the supercell directly, the propagation characteristics of elastic waves in the track structure with defects are analyzed. The existence of defects destroys the periodicity of track structure, thus resulting in the formation of defect states within the band gaps. Moreover, the elastic wave is localized near the defect position at the frequency of the defect state. The formation mechanism of the defect state in track structure can be explained by the local resonance at the defect. With the expansion of the defect range, the number of local resonance modes that can be formed near the defect increases, thus generating multiple defect states. Furthermore, the defect state enhances the vibration of the structure adjacent to the defect. Therefore, the vibration transmission coefficient in a finite-length range can be used to detect the defect characteristics in the track structure, and the defect degree can be evaluated by the peak frequency of the vibration transmission coefficient within the band gap.
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