基于非局部应变梯度理论的任意约束纳米梁嵌入弹性介质的稳定性分析

IF 1.4 4区工程技术 Q3 ENGINEERING, MECHANICAL

Journal of Strain Analysis for Engineering Design Pub Date : 2023-04-19 DOI:10.1177/03093247231164261

B. Uzun, M. Yaylı

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引用次数: 1

摘要

本文对单参数弹性基础上的纳米梁的稳定性模型进行了重新解析。稳定性求解基于非局部应变梯度弹性理论。为了消除小尺度效应，引入了两个小尺度参数。利用屈曲方程的六阶常微分形式，结合两个力边界条件，研究了考虑侧向挠度的稳定性方程。利用Stokes变换和傅里叶正弦级数对线性方程的无穷项进行离散化。研究了末端弹性弹簧参数、非局部特性、弹性介质特性、应变梯度参数和屈曲行为对纳米梁的影响。本文提出的具有可变形边界条件的分析模型的预测结果与科学文献中基于封闭解形式的弹性基础上纳米梁的预测结果一致。变形条件、弹性基础、非局部和应变梯度特性的存在改变了屈曲载荷和屈曲振型。

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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Stability analysis of arbitrary restrained nanobeam embedded in an elastic medium via nonlocal strain gradient theory

A novel stability model is analytically reformulated for the nano-sized beam resting on a one-parameter elastic foundation. The stability solution is based on the nonlocal strain gradient elasticity theory. To corporate the small size effects, two small scale parameters are introduced. The six-order ordinary differential form of the buckling equation, together with two force boundary conditions, are utilized to examine the stability equation in terms of lateral deflection. The infinite terms of linear equations are discretized with the help of the Stokes’ transformation and Fourier sine series. The present work can investigate the effects of elastic spring parameters at the ends, nonlocal properties, elastic medium properties, strain gradient parameter, and buckling behavior of the nanobeam. The predictions of the proposed analytical model with deformable boundary conditions are in agreement with those available in the scientific literature for the nanobeam on elastic foundation based on a closed form of solution. The presence of the deformable conditions, elastic foundation, nonlocal, and strain gradient properties change the buckling loads and buckling mode shapes.

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来源期刊

Journal of Strain Analysis for Engineering Design 工程技术-材料科学：表征与测试

CiteScore

3.50

自引率

6.20%

发文量

审稿时长

>12 weeks

期刊介绍： The Journal of Strain Analysis for Engineering Design provides a forum for work relating to the measurement and analysis of strain that is appropriate to engineering design and practice. "Since launching in 1965, The Journal of Strain Analysis has been a collegiate effort, dedicated to providing exemplary service to our authors. We welcome contributions related to analytical, experimental, and numerical techniques for the analysis and/or measurement of stress and/or strain, or studies of relevant material properties and failure modes. Our international Editorial Board contains experts in all of these fields and is keen to encourage papers on novel techniques and innovative applications." Professor Eann Patterson - University of Liverpool, UK This journal is a member of the Committee on Publication Ethics (COPE).