Deep-subwavelength and hydrostatic-pressure-resistant meta-absorber for broadband low-frequency underwater sound

Applied Physics Express Pub Date : 2024-07-11 DOI:10.35848/1882-0786/ad622e
Yanni Zhang, Manlin Tong, Xiaoting Rui, Guoping Wang, Fufeng Yang
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Abstract

By embedding center-supported graded-circular-plates (CS-GCPs) into an elastomer, a deep-subwavelength and hydrostatic-pressure-resistant meta-absorber was designed and manufactured for sound absorption (SA) under hydrostatic pressure. The meta-absorber exhibits excellent SAs (>0.842, 0.927 on average) within 500-2000 Hz and quasi-perfect SA (>0.94) within 500-700 Hz with thickness 2% of the sound wavelength. This excellent SA (0.91 on average) is verified experimentally within 1-10 kHz, and maintained high (0.84 on average) under hydrostatic pressure of 1.0 MPa. The exotic functionality arises from enriched local-dynamics by the CS-GCPs and pressure-resistance of the center-support, and provides an effective solution for ultra-broadband low-frequency underwater sound control.
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用于宽带低频水下声学的深亚波长和抗静水压力元吸收器
通过在弹性体中嵌入中心支撑分级圆板(CS-GCP),设计并制造了一种深亚波长、耐静水压的元吸声体,用于在静水压力下吸声(SA)。这种元吸声材料在 500-2000 Hz 范围内具有极佳的吸声性能(大于 0.842,平均值为 0.927),在 500-700 Hz 范围内具有准完美的吸声性能(大于 0.94),厚度为声波长的 2%。在 1-10 kHz 的频率范围内,实验验证了这一优异的 SA 值(平均 0.91),并在 1.0 MPa 的静水压力下保持较高的 SA 值(平均 0.84)。这种奇特的功能源于 CS-GCP 丰富的局部动力学和中心支撑的抗压性,为超宽带低频水下声控提供了有效的解决方案。
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Applied Physics Express
Applied Physics Express
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