磁活性纤维复合材料中的弹性波传播

IF 3.4 3区工程技术 Q1 MECHANICS

International Journal of Solids and Structures Pub Date : 2025-04-17 DOI:10.1016/j.ijsolstr.2025.113373

Harold Berjamin, Stephan Rudykh

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引用次数: 0

摘要

纤维增强弹性体是一种重量轻、强度高的材料，可以承受较大的变形。当充满磁性粒子时，它们的有效机械响应可以被外部磁场所改变。在本研究中，我们提出了一种有效的基于新胡克弹性响应和各相线性磁律的纤维增强复合材料理论。结果表明，该理论适用于描述复合材料圆柱体的运动。此外，它被发现适合于模拟纤维增强复合材料受到与纤维对齐的永久磁场。为了达到这个结果，我们使用增量理论（“小对大”），结合均质化理论和Bloch-Floquet方法。通过这种方式，我们证明了波的指向性对永久磁场的应用很敏感，而禁止波传播的频率范围不受这种负载的影响（带隙是不变的）。顺便，我们描述了一种基于测量两个波速来推断材料中总应力的方法。此外，我们提出了一个有效的能量函数来描述非线性复合材料的杨氏型广义新hookean纤维在一个新hookean矩阵。

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Elastic wave propagation in magneto-active fibre composites

Fibre-reinforced elastomers are lightweight and strong materials that can sustain large deformations. When filled with magnetic particles, their effective mechanical response can be modified by an external magnetic field. In the present study, we propose an effective theory of fibre-reinforced composite, based on a neo-Hookean elastic response and a linear magnetic law in each phase. The theory is shown suitable to describe the motion of composite cylinders. Furthermore, it is found appropriate for the modelling of fibre-reinforced composites subjected to a permanent magnetic field aligned with the fibres. To reach this result, we use the incremental theory (‘small on large’), in combination with homogenisation theory and the Bloch–Floquet method. This way, we show that wave directivity is sensitive to the application of a permanent magnetic field, whereas the frequency range in which wave propagation is forbidden is not modified by such a load (the band gaps are invariant). In passing, we describe a method to deduce the total stress in the material based on the measurement of two wave speeds. Furthermore, we propose an effective energy function for the description of nonlinear composites made of Yeoh-type generalised neo-Hookean fibres within a neo-Hookean matrix.

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来源期刊

International Journal of Solids and Structures 物理-力学

CiteScore

6.70

自引率

8.30%

发文量

405

审稿时长

70 days

期刊介绍： The International Journal of Solids and Structures has as its objective the publication and dissemination of original research in Mechanics of Solids and Structures as a field of Applied Science and Engineering. It fosters thus the exchange of ideas among workers in different parts of the world and also among workers who emphasize different aspects of the foundations and applications of the field. Standing as it does at the cross-roads of Materials Science, Life Sciences, Mathematics, Physics and Engineering Design, the Mechanics of Solids and Structures is experiencing considerable growth as a result of recent technological advances. The Journal, by providing an international medium of communication, is encouraging this growth and is encompassing all aspects of the field from the more classical problems of structural analysis to mechanics of solids continually interacting with other media and including fracture, flow, wave propagation, heat transfer, thermal effects in solids, optimum design methods, model analysis, structural topology and numerical techniques. Interest extends to both inorganic and organic solids and structures.