China Mechanical Engineering ›› 2026, Vol. 37 ›› Issue (6): 1402-1409.DOI: 10.3969/j.issn.1004-132X.2026.06.013

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Functional Design of Low-frequency Sound Absorption in Multidirectional Folded Honeycomb Resonant Metamaterials

MENG Kexuan(), LIANG Qingxuan(), FENG Jiaming, LI Hongxu, LI Dichen   

  1. State Key Laboratory for Manufacturing System Engineering,Xi’an Jiaotong University,Xi’an,710049
  • Received:2025-11-26 Online:2026-06-25 Published:2026-07-17
  • Contact: LIANG Qingxuan

多向折叠蜂窝共振超材料低频吸声功能设计

孟珂璇(), 梁庆宣(), 丰佳明, 李红旭, 李涤尘   

  1. 西安交通大学精密微纳制造技术全国重点实验室, 西安, 710049
  • 通讯作者: 梁庆宣
  • 作者简介:孟珂璇,女,2002年生,硕士研究生。研究方向为吸声超材料设计。E-mail:mkx1013@stu.xjtu.edu.cn
    梁庆宣*(通信作者),男,1980年生,教授、博士研究生导师。研究方向为功能结构3D打印技术、声学超材料等。发表论文50余篇。E-mail:liangqx728@xjtu.edu.cn
  • 基金资助:
    陕西省杰出青年科学基金(2025JC-JCQN-035)

Abstract:

To address the challenges of balancing low-frequency broadband noise reduction and lightweight design in aircraft cabin noise control within the aviation field, a design method for a multi-directional folded honeycomb structure (MFHS) acoustic metamaterial was proposed. The sound absorption unit of the MFHS was composed of a honeycomb cavity and a square insert tube. A theoretical sound absorption model was established based on the resonance principle, and the influence laws of three key structural parameters(the side length and height of the insert tube, and the length of the cavity) on the sound absorption performance were systematically investigated. The coupled performance of multiple units in parallel was analyzed to achieve broadband sound absorption. To better achieve the lightweight objective, a design method of multi-directional folding was adopted, and samples were fabricated using lightweight materials. Experimental results show that the fabricated MFHS sample achieves an average sound absorption coefficient of 0.85 in the frequency range of 400~1200 Hz, and the thickness of structure is only 35 mm, the areal density is as low as 7.04 kg/m². This realizes the synergistic design of low-frequency broadband efficient sound absorption and lightweight, offering a new idea for low-frequency noise control in the aviation field.

Key words: acoustic absorption metamaterial, low-frequency broadband, resonant sound absorption, honeycomb cavity

摘要:

针对航空领域飞机舱内噪声控制中低宽频降噪与轻量化难以兼顾的难题,提出了一种多向折叠蜂窝结构(MFHS)吸声超材料设计方法。MFHS的吸声单元由蜂窝腔体与方形内插管构成。建立了基于共振原理的吸声理论模型,系统研究了内插管边长、内插管高度及腔体高度三个关键结构参数对吸声性能的影响规律,分析了多单元并联耦合性能以实现宽带吸声。为更好地实现轻量化目标,采用多向折叠的设计方法,并使用轻质材料制备样品。实验结果表明,所制备的MFHS样品在400~1200 Hz频段内平均吸声系数达到0.85,结构厚度仅为35 mm,面密度低至7.04 kg/m²,实现了低频宽带高效吸声与轻量化的协同设计,为航空领域低频噪声控制提供了新思路。

关键词: 吸声超材料, 低频宽带, 共振吸声, 蜂窝腔体

CLC Number: