Damping Enhancement Using Axially Functionally Graded Porous Structure Based on Acoustic Black Hole Effect

Materials
Weiguang ZhengShuilong He

Abstract

The acoustic black hole (ABH) effect for damping flexural waves using axially functionally graded porous (FGP) structure is investigated. With proposed power-law porosity of FGP structure, ABH can be achieved and damping effect is enhanced. The physics are explained from divergent conditions of the integrated wave phase at composite ends. Numerical results show the damping effect is increased with power law index. The phenomenon is expounded by the characteristics of reflection coefficient and impedance. It indicates that increasing power law index leads to smaller wavelength along to the end, then the wave needs more oscillation cycles to travel, which leads to more energy absorption. Transient analysis for 2D FGP structure also shows the focalization and ABH effect of the flexural waves.

References

Apr 5, 2017·The Journal of the Acoustical Society of America·Jae Yeon Lee, Wonju Jeon

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