Materials, Vol. 18, Pages 4615: Low Noise Structure Design and Experimental Verification of Ship Based on Flexural Wave Band Gap Characteristics
Materials doi: 10.3390/ma18194615
Authors:
Yicheng Lu
Li Tang
Chuanlong Wang
Zilong Peng
Li Xiang
To address low-frequency vibration and noise issues in ship grating structures, this study proposes a novel acoustic optimization design method based on modulating flexural wave bandgap characteristics. By establishing an equivalent periodic spring-mass coupled beam model to predict bandgap properties, its effectiveness is validated through numerical simulations and experimental testing. By selectively enhancing longitudinal stiffness while weakening transverse components, the bandgap characteristics are effectively tuned to target frequency bands. This approach achieves an 8.2 dB noise reduction at the 31.4 Hz natural frequency. The results demonstrate that bandgap-based design provides a numerically and experimentally validated solution for low-noise ship structures.
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Yicheng Lu www.mdpi.com
