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PREDICTION OF FLEXURAL WAVE TRANSMISSION USING ADVANCED SEA FOR THREE COUPLED PLATES INCORPORATING A PERIODIC RIBBED PLATE

机译：三个耦合板的弯曲波传输预测包括周期罗纹板的三个耦合板

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This paper considers the transmission of flexural waves across systems of coupled plates formed from a periodic ribbed plate and homogeneous isotropic plates. Previous work by the authors has shown that compared to classical SEA, Advanced SEA (ASEA) can significantly improve the accuracy of predictions of vibration transmission for an L-junction comprising a homogeneous isotropic plate and a periodic ribbed plate. The main reason for this is that ASEA can effectively account for coupling between physically unconnected subsystems due to tunneling mechanisms. This paper extends the validation of ASEA to larger plate structures by incorporating a third plate (homogeneous, isotropic plate) to form an in-line periodic structure as well as three plates connected to form a corner that effectively introduces flanking transmission. ASEA results are compared with numerical models using Finite Element Method (FEM) and classical SEA using coupling loss factors from wave theory. In both cases, ASEA shows significant improvements to SEA for high-frequency vibration transmission in plate structures.

机译：本文考虑跨越由周期性罗纹板和均匀各向同性板形成的耦合板系统的弯曲波的透射。此前作者的工作表明，与古典海洋（ASEA）相比，高级海（ASEA）可以显着提高包括均匀各向同性板和周期性罗纹板的L型连接的振动传递的预测的准确性。为此的主要原因是，由于隧道机制，ASEA可以有效地占物理上未连接的子系统之间的耦合。本文通过掺入第三板（均匀的各向同性板）来延伸到更大板结构的验证，以形成一线周期性结构以及连接以形成有效地引入侧翼传动的角的三个板。使用来自波理论的耦合损耗因子，将ASEA结果与使用有限元法（FEM）和古典海运的数值模型进行比较。在这两种情况下，ASEA在板结构中显示出对高频振动传输的显着改进。

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《International Congress on Sound and Vibration》|2014年||共7页
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Jianfei Yin; Carl Hopkins; Jihong Wen;
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中图分类 TB53-53;
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1. Prediction of high-frequency vibration transmission across coupled, periodic ribbed plates by incorporating tunneling mechanisms [J] . Yin J., Hopkins C. The Journal of the Acoustical Society of America . 2013,第4期

机译：结合隧穿机制预测耦合的周期性肋板上的高频振动传递
2. Modelling Bending Wave Transmission across Coupled Plate Systems Comprising Periodic Ribbed Plates in the Low-, Mid-, and High-Frequency Ranges Using Forms of Statistical Energy Analysis [J] . Yin Jianfei, Hopkins Carl Shock and vibration . 2015,第pta6期

机译：使用统计能量分析的形式，对低频，中频和高频范围内包含周期性肋板的耦合板系统之间的弯曲波传输进行建模
3. Modelling Bending Wave Transmission across Coupled Plate Systems Comprising Periodic Ribbed Plates in the Low-, Mid-, and High-Frequency Ranges Using Forms of Statistical Energy Analysis [J] . JianfeiYin, CarlHopkins Shock and vibration . 2015,第3期

机译：使用统计能量分析的形式，对低频，中频和高频范围内包含周期性肋板的耦合板系统之间的弯曲波传输进行建模
4. PREDICTION OF FLEXURAL WAVE TRANSMISSION USING ADVANCED SEA FOR THREE COUPLED PLATES INCORPORATING A PERIODIC RIBBED PLATE [C] . Jianfei Yin, Carl Hopkins, Jihong Wen International Congress on Sound and Vibration . 2014

机译：三个耦合板的弯曲波传输预测包括周期罗纹板的三个耦合板
5. A flexural plate wave resonator as a bio-chemical sensor. [D] . Lovelace, William E. 2007

机译：弯曲板波谐振器作为生化传感器。
6. Dynamic interfacial trapping of flexural waves in structured plates [O] . S. G. Haslinger, R. V. Craster, A. B. Movchan, -1

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7. Modelling Bending Wave Transmission across Coupled Plate Systems Comprising Periodic Ribbed Plates in the Low-, Mid-, and High-Frequency Ranges Using Forms of Statistical Energy Analysis [O] . Yin J, Hopkins C 2015

机译：使用统计能量分析的形式，对低频，中频和高频范围内包含周期性肋板的耦合板系统之间的弯曲波传输进行建模
8. Analysis of Ribbed Plates. A Theoretical Study to Develop Rational Formulas for the Prediction of Load Distribution in Bridge Floor Systems [R] . Dean, D. L. 1968

机译：带肋板的分析。开发理论公式预测桥面系统荷载分布的理论研究

PREDICTION OF FLEXURAL WAVE TRANSMISSION USING ADVANCED SEA FOR THREE COUPLED PLATES INCORPORATING A PERIODIC RIBBED PLATE

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