振动
厚板
动力减振器
磁道(磁盘驱动器)
机制(生物学)
刚度
结构工程
工程类
声学
物理
机械工程
量子力学
作者
Yuhao Ren,Qiuyi Li,Shuai Qu,Jianjin Yang,Wei Luo,Shengyang Zhu,Wanming Zhai
标识
DOI:10.1080/00423114.2024.2383350
摘要
Vibration amplification at the natural frequency of floating slab track (FST) remains a significant concern. This study integrates quasi-zero stiffness mechanisms combined with dynamic vibration absorbers (QZSDVA) into FST, resulting in a novel formulation of vibration reduction track (QZSDVA-based FST) to effectively suppress low-frequency track vibrations. The analytical expression for the dynamic response of the two-degree-of-freedom QZSDVA system is derived and subsequently validated through numerical approaches. Building on this, a vehicle-QZSDVA-based FST dynamic model is established and optimal parameters for DVA are identified guided by H∞ optimisation. Further exploration highlights the capability of QZSDVA-based FST in significantly suppressing track vibrations and reducing the support force of the structure, without compromising running safety of subway train. Results emphasise that optimally tuned parameters enable QZSDVA-based FST to reduce low-frequency vibrations effectively, even with a minimal DVA mass. In comparison to alternative vibration reduction tracks, the proposed QZSDVA-based FST outperforms in suppressing low-frequency vibrations within the range of 6.3–16 Hz. This research offers an innovative solution to mitigate environmental vibrations induced by urban rail transit.
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