纳米梁中的波传播

IF 5.7 1区 工程技术 Q1 ENGINEERING, MULTIDISCIPLINARY
Raffaele Barretta , Annalisa Iuorio , Raimondo Luciano , Marzia Sara Vaccaro
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引用次数: 0

摘要

本文研究了位于非局部介质上的瑞利纳米梁的波传播。小尺度结构-地基问题是根据一种新颖的一致非局部方法制定的,该方法扩展了 Barretta 等人(2022 年)的特殊弹性静力分析。纳米结构的非局部效应根据应力驱动积分法建模。纳米基础的外部弹性则由位移驱动的空间卷积来描述。所开发的方法可以解决连续性问题,从而避免了 Eringen-Wieghardt 非局部方法的问题和应用困难。然后分析了与纳米地基相互作用的瑞利纳米梁中的波传播,并利用新颖的一致策略分析检测了色散特征。建立了与尺寸相关的色散关系的闭式表达式,并将其与文献中的结果联系起来。从而为解决波传播纳米机械问题提供了一种通用的、假设良好的方法。最后完成并讨论了参数研究,以显示长度尺度参数对纳米工程领域当前关注的小尺度系统的波色散特性的影响。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
On wave propagation in nanobeams

Wave propagation in Rayleigh nanobeams resting on nonlocal media is investigated in this paper. Small-scale structure-foundation problems are formulated according to a novel consistent nonlocal approach extending the special elastostatic analysis in Barretta et al. (2022). Nonlocal effects of the nanostructure are modelled according to a stress-driven integral law. External elasticity of the nano-foundation is instead described by a displacement-driven spatial convolution. The developed methodology leads to well-posed continuum problems, thus circumventing issues and applicative difficulties of the Eringen–Wieghardt nonlocal approach. Wave propagation in Rayleigh nanobeams interacting with nano-foundations is then analysed and dispersive features are analytically detected exploiting the novel consistent strategy. Closed form expressions of size-dependent dispersion relations are established and connection with outcomes available in literature is contributed. A general and well-posed methodology is thus provided to address wave propagation nanomechanical problems. Parametric studies are finally accomplished and discussed to show effects of length scale parameters on wave dispersion characteristics of small-scale systems of current interest in Nano-Engineering.

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来源期刊
International Journal of Engineering Science
International Journal of Engineering Science 工程技术-工程:综合
CiteScore
11.80
自引率
16.70%
发文量
86
审稿时长
45 days
期刊介绍: The International Journal of Engineering Science is not limited to a specific aspect of science and engineering but is instead devoted to a wide range of subfields in the engineering sciences. While it encourages a broad spectrum of contribution in the engineering sciences, its core interest lies in issues concerning material modeling and response. Articles of interdisciplinary nature are particularly welcome. The primary goal of the new editors is to maintain high quality of publications. There will be a commitment to expediting the time taken for the publication of the papers. The articles that are sent for reviews will have names of the authors deleted with a view towards enhancing the objectivity and fairness of the review process. Articles that are devoted to the purely mathematical aspects without a discussion of the physical implications of the results or the consideration of specific examples are discouraged. Articles concerning material science should not be limited merely to a description and recording of observations but should contain theoretical or quantitative discussion of the results.
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