Sound transmission loss and energy absorbing performance of stiffened doubly-curved shells with corrugated-honeycomb hybrid cores

IF 4.4 2区 工程技术 Q1 MECHANICS
Tao Fu , E Rao , Timon Rabczuk
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引用次数: 0

Abstract

Compared to traditional lightweight corrugation and cellular cores, the novel cellular cores auxetic metamaterials with negative and zero Poisson's ratios possess distinctive mechanical deformation traits, making them suitable for modeling lightweight sandwich structures. Therefore, the concept of combining auxetic metamaterial cellular with folded corrugation is proposed to construct a new type of corrugated honeycomb hybrid cores for studying the sound insulation and energy absorption characteristics of the stiffened sandwich doubly-curved shells, wherein the honeycomb core possesses a full range of Poisson's ratio characteristic and is composed of cellular cores exhibiting positive, negative, and zero Poisson's ratios (PPR, NPR, and ZPR). The Hamilton's principle is hired to derive the governing equations and considers fluid-structure coupling by applying normal velocities continuity conditions at the fluid-structure interface, which is further analytically solved using Navier's techniques, and the sound transmission loss (STL) is described analytically. The accuracy of these results is validated through comparisons with both experimental measurements conducted in an impedance tube and simulated outcomes generated by the COMSOL commercial software. The properties of stiffened sandwich doubly-curved shells with corrugated honeycomb hybrid cores are meticulously evaluated and compared, and the results show that the hybrid cellular core type significantly impacts the STL, wherein the average STL of the corrugation ZPR cellular hybrid cores stands at 42.06 dB within the broad low-frequency range of 380–2422 Hz, which has increased by 9.11% and 8.31% compared to the values of the corrugation NPR and traditional PPR cellular hybrid cores, the specific energy absorption (SEA) of the corrugation ZPR cellular hybrid cores is 13.06 kJ/m3, which has increased by 16.19% and 18.08% compared with the corrugation NPR and PPR cellular hybrid cores, respectively, indicating that the corrugation ZPR cellular hybrid cores have better sound insulation and energy absorption characteristics than the corrugation NPR and PPR cellular hybrid cores.

带波纹-蜂窝混合芯材的加劲双曲面壳体的传声损耗和吸能性能
与传统的轻质波纹芯材和蜂窝芯材相比,具有负泊松比和零泊松比的新型蜂窝芯材辅助超材料具有独特的力学变形特性,使其适用于轻质夹层结构建模。因此,我们提出了将辅助超材料蜂窝与折叠波纹相结合的概念,以构建一种新型波纹蜂窝混合芯材,用于研究加劲夹层双曲面壳体的隔音和吸能特性,其中蜂窝芯材具有全方位的泊松比特性,并由具有正、负和零泊松比(PPR、NPR 和 ZPR)的蜂窝芯材组成。利用汉密尔顿原理推导出控制方程,并通过在流体-结构界面应用法向速度连续性条件来考虑流体-结构耦合。通过与阻抗管中的实验测量结果和 COMSOL 商业软件生成的模拟结果进行比较,验证了这些结果的准确性。结果表明,混合蜂窝芯类型对 STL 有显著影响,其中波纹 ZPR 蜂窝混合芯在 380-2422 Hz 宽低频范围内的平均 STL 为 42.06 dB,分别比波纹 ZPR 蜂窝混合芯增加了 9.11% 和 8.31%。波纹 ZPR 蜂窝混合芯材的比能量吸收(SEA)为 13.06 kJ/m3,与波纹 NPR 和 PPR 蜂窝混合芯材相比分别提高了 16.19% 和 18.08%,表明波纹 ZPR 蜂窝混合芯材比波纹 NPR 和 PPR 蜂窝混合芯材具有更好的隔音和吸能特性。
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来源期刊
CiteScore
7.00
自引率
7.30%
发文量
275
审稿时长
48 days
期刊介绍: The European Journal of Mechanics endash; A/Solids continues to publish articles in English in all areas of Solid Mechanics from the physical and mathematical basis to materials engineering, technological applications and methods of modern computational mechanics, both pure and applied research.
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