Bifurcation analysis of a nanotube through which passes a nanostring

IF 2.3 3区 工程技术 Q2 MECHANICS Acta Mechanica Pub Date : 2024-09-09 DOI:10.1007/s00707-024-04076-w
Armin D. Berecki, Valentin B. Glavardanov, Nenad M. Grahovac, Miodrag M. Zigic
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Abstract

This paper deals with the local bifurcation analysis of a nanotube with a nanostring passing through it. Eringen’s two-phase local/nonlocal model and Eringen’s differential model are employed as constitutive equations. The governing equations are derived as two nonlinear first-order systems of ordinary differential equations. Nonlinear analysis is performed by using the Lyapunov–Schmidt method. The influence of the small length scale parameter and the phase parameter on critical buckling load, type of bifurcation and post-buckling shape of the nanotube is examined for both types of constitutive equations. Depending on the values of the small length scale parameter and the phase parameter, the critical buckling load corresponding to Eringen’s two-phase local/nonlocal model can be greater or less than that corresponding to Eringen’s differential model. It is shown that for both models supercritical pitchfork bifurcation occurs. The post-buckling shapes of nanotube, obtained by numerical integration, exhibit a qualitative difference between the two models.

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通过纳米环的纳米管的分岔分析
本文论述了纳米管与穿过它的纳米环的局部分岔分析。采用 Eringen 的两相局部/非局部模型和 Eringen 的微分模型作为构成方程。控制方程被推导为两个非线性一阶常微分方程系统。利用 Lyapunov-Schmidt 方法进行了非线性分析。针对两种类型的构成方程,研究了小长度尺度参数和相位参数对临界屈曲载荷、分岔类型和纳米管屈曲后形状的影响。根据小长度尺度参数和相位参数的取值,Eringen 的两相局部/非局部模型对应的临界屈曲载荷可能大于或小于 Eringen 的微分模型对应的临界屈曲载荷。研究表明,这两种模型都会出现超临界叉形分岔。通过数值积分得到的纳米管屈曲后形状显示出两种模型之间的本质区别。
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来源期刊
Acta Mechanica
Acta Mechanica 物理-力学
CiteScore
4.30
自引率
14.80%
发文量
292
审稿时长
6.9 months
期刊介绍: Since 1965, the international journal Acta Mechanica has been among the leading journals in the field of theoretical and applied mechanics. In addition to the classical fields such as elasticity, plasticity, vibrations, rigid body dynamics, hydrodynamics, and gasdynamics, it also gives special attention to recently developed areas such as non-Newtonian fluid dynamics, micro/nano mechanics, smart materials and structures, and issues at the interface of mechanics and materials. The journal further publishes papers in such related fields as rheology, thermodynamics, and electromagnetic interactions with fluids and solids. In addition, articles in applied mathematics dealing with significant mechanics problems are also welcome.
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