Nonlinear Bending of FG-CNTR Curved Nanobeams in Thermal Environments

IF 2 3区 工程技术 Q3 MATERIALS SCIENCE, MULTIDISCIPLINARY
Yuanyuan Zhang, Yanxin Li, Guoyong Zhang, Xin Zhang
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引用次数: 0

Abstract

By focusing on the nonlinear bending behavior of functionally graded carbon nanotube-reinforced (FG-CNTR) curved nanobeams under thermal loads while considering size effects, this paper fills the apparent void by comprehensively incorporating the Chen-Yao surface elasticity theory and modified couple-stress theory. A tri-parameter elastic substrate model is introduced, and the temperature dependence of material properties is considered. Through a two-step perturbation technique, the asymptotic solutions for the temperature-deflection relationship are obtained. After that, novel numerical results are provided to explore the impacts of temperature, size effects, geometric characteristics of the curved beams, elastic substrates, properties of the CNT reinforcements, and boundary conditions. The results indicate that surface effects, couple stress effects, and the elastic foundation enhance the bending stiffness of FG-CNTR curved nanobeams. By considering both size effect theories, this study provides a more comprehensive and precise description of the nonlinear bending of FG-CNTR curved nanobeams under thermal loads.

Abstract Image

热环境中 FG-CNTR 弯曲纳米梁的非线性弯曲
本文重点研究了功能分级碳纳米管增强(FG-CNTR)曲面纳米梁在热载荷作用下的非线性弯曲行为,同时考虑了尺寸效应,全面结合了陈耀表面弹性理论和修正耦合应力理论,填补了这一明显的空白。本文引入了三参数弹性基底模型,并考虑了材料特性的温度依赖性。通过两步扰动技术,得到了温度-挠度关系的渐近解。随后,提供了新的数值结果,以探讨温度、尺寸效应、弯曲梁的几何特性、弹性基底、碳纳米管增强材料的特性和边界条件的影响。结果表明,表面效应、耦合应力效应和弹性基底增强了 FG-CNTR 弯曲纳米梁的弯曲刚度。通过考虑两种尺寸效应理论,本研究对 FG-CNTR 弯曲纳米梁在热负荷下的非线性弯曲进行了更全面、更精确的描述。
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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来源期刊
Acta Mechanica Solida Sinica
Acta Mechanica Solida Sinica 物理-材料科学:综合
CiteScore
3.80
自引率
9.10%
发文量
1088
审稿时长
9 months
期刊介绍: Acta Mechanica Solida Sinica aims to become the best journal of solid mechanics in China and a worldwide well-known one in the field of mechanics, by providing original, perspective and even breakthrough theories and methods for the research on solid mechanics. The Journal is devoted to the publication of research papers in English in all fields of solid-state mechanics and its related disciplines in science, technology and engineering, with a balanced coverage on analytical, experimental, numerical and applied investigations. Articles, Short Communications, Discussions on previously published papers, and invitation-based Reviews are published bimonthly. The maximum length of an article is 30 pages, including equations, figures and tables
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