A Particle Reinforced Gradient Honeycomb Sandwich Panel for Broadband Sound Insulation

The sound insulation capacity of traditional sound insulation boards is limited by the law of mass, and any improvement in sound insulation capacity contradicts the demand for light weight. In order to overcome this shortcoming, a lightweight particle reinforced gradient honeycomb sandwich panel is proposed to achieve lightweight sound insulation. The sound insulation of the particle reinforced honeycomb sandwich panel is calculated based on the transfer matrix method. The accuracy of the theory is verified through finite element simulation, and the influence of material and structural parameters on the sound insulation performance of the sandwich panel is analyzed. The results show that the sound insulation of the honeycomb sandwich panel can be significantly improved by adding reinforcement particles to the aluminum matrix, and the sound insulation also increases as the particle mass fraction of the reinforcement increases. In addition, the valley value of the sound insulation curve moves towards the low frequency direction, which indicates that the sound insulation performance of the sandwich plate at low frequencies is effectively improved.

Automated summary

The sound insulation capacity of traditional sound insulation boards is limited by mass, conflicting with the demand for light weight. To address this issue, a lightweight particle reinforced gradient honeycomb sandwich panel is proposed for lightweight sound insulation. The sound insulation is calculated based on the transfer matrix method and verified through finite element simulation. It is found that adding reinforcement particles to the aluminum matrix can significantly improve the sound insulation of the honeycomb sandwich panel, and the sound insulation also increases with the particle mass fraction of the reinforcement. Furthermore, the sound insulation performance of the sandwich plate at low frequencies is effectively improved.