高对比度正交各向异性晶格的低频振动

IF 2.3 4区工程技术 Q3 MECHANICS

Mechanics Research Communications Pub Date : 2025-02-07 DOI:10.1016/j.mechrescom.2025.104386

Igor V. Andrianov , Vladyslav V. Danishevskyy , Julius Kaplunov

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引用次数: 0

摘要

长波在晶格或复合和层状结构中的传播研究通常使用一个表征波长与某些特征尺寸之比的单个小参数进行。假定刚度或密度参数的比值为单位数量级。在现实中，这是一个多参数问题，而参数的作用往往使得挑选出非平凡极限系统成为可能。特别是，对于高对比度的复合结构和层状结构，除了更传统的全局低频状态外，还揭示了低频状态，其中较硬的组件不会阻止波在较弱组件的厚度上传播。本文研究了高对比度平面正交各向异性晶格的这种状态的存在性。分析了弹簧的质量比和刚度比，在此条件下，同一频率范围内的振动可能存在同相位和反相位模式。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Low-frequency vibrations of a high-contrast orthotropic lattice

The study of long-wave propagation in lattices or in composite and layered structures is usually carried out using a single small parameter characterising the ratio of the wavelength to some characteristic size. Ratios of rigidity or density parameters are assumed to be of the order of unity. In reality, this is a multi-parameter problem, and the play of parameters often makes it possible to single out non-trivial limit systems. In particular, for high-contrast composite and layered structures, low-frequency regime, in which stiffer components do not prevent wave propagation across the thickness of weaker ones, has been revealed, in addition to the more traditional global low-frequency regime. This paper is devoted to the investigation of the existence of such regimes for a high-contrast plane orthotropic lattice. The ratios of masses and stiffness's of springs are analysed, under which the existence of in-phase and anti-phase modes of vibrations in the same frequency range is possible.

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来源期刊

Mechanics Research Communications 物理-力学

CiteScore

4.10

自引率

4.20%

发文量

114

审稿时长

9 months

期刊介绍： Mechanics Research Communications publishes, as rapidly as possible, peer-reviewed manuscripts of high standards but restricted length. It aims to provide: • a fast means of communication • an exchange of ideas among workers in mechanics • an effective method of bringing new results quickly to the public • an informal vehicle for the discussion • of ideas that may still be in the formative stages The field of Mechanics will be understood to encompass the behavior of continua, fluids, solids, particles and their mixtures. Submissions must contain a strong, novel contribution to the field of mechanics, and ideally should be focused on current issues in the field involving theoretical, experimental and/or applied research, preferably within the broad expertise encompassed by the Board of Associate Editors. Deviations from these areas should be discussed in advance with the Editor-in-Chief.