Static and dynamic stabilities of modified gradient elastic Kirchhoff–Love plates

IF 4.4 2区 工程技术 Q1 MECHANICS
Yucheng Zhou, Kefu Huang
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引用次数: 0

Abstract

The static and dynamic stabilities of modified gradient elastic Kirchhoff–Love plates (MGEKLPs), which incorporate two length-scale parameters related to strain gradient and rotation gradient effects, are comprehensively analyzed under various load forms and boundary conditions (BCs). The study of static stability employs static balance method and an improved energy method by introducing higher-order deformation gradients and corresponding energy terms. Utilizing the variational method, a sixth-order fundamental buckling differential equation for MGEKLPs under both transverse and in-plane loads is derived, serving as the foundation for the static balance method. The static stability analysis of MGEKLPs examines the combined effects of strain and rotation gradients on size-dependent critical buckling loads. Building on generalized strain energy with higher-order deformation energy, the energy method of classical elastic thin plate model is enhanced and applied to the static stability analysis of MGEKLPs. This approach enables the investigation of static stability without being constrained by the need to solve complex differential equations, making it applicable to various BCs and load scenarios. While static stability provides a description of stable state of an elastic system, dynamic stability offers a more scientific and rigorous analysis. The dynamic stability of simplified gradient elastic Kirchhoff–Love plates (SGEKLPs) with curved edges and different BCs is further investigated by combining the generalized strain energy with Lyapunov’s second stability method, presenting the dynamic stability criterion in the form of norms. A strict description of the dynamic stability of a SGEKLP over the entire time domain is provided for different supporting conditions, including case where all edges are supported and case with free edges. The analysis of size-dependent static and dynamic stabilities offers theoretical guidance for designing elastic thin plates with microstructures.

改良梯度弹性基尔霍夫-洛夫板的静态和动态稳定性
本文综合分析了改良梯度弹性基尔霍夫-洛夫板(MGEKLPs)在各种载荷形式和边界条件(BCs)下的静态和动态稳定性,MGEKLPs 包含与应变梯度和旋转梯度效应相关的两个长度尺度参数。静态稳定性研究采用了静态平衡法和改进的能量法,引入了高阶变形梯度和相应的能量项。利用变分法,推导出了横向和平面载荷作用下 MGEKLP 的六阶基本屈曲微分方程,为静力平衡法奠定了基础。MGEKLP 的静态稳定性分析研究了应变梯度和旋转梯度对与尺寸有关的临界屈曲载荷的综合影响。在广义应变能与高阶变形能的基础上,增强了经典弹性薄板模型的能量方法,并将其应用于 MGEKLP 的静态稳定性分析。这种方法无需求解复杂的微分方程就能研究静态稳定性,因此适用于各种 BC 和负载情况。静态稳定性提供了对弹性系统稳定状态的描述,而动态稳定性则提供了更加科学和严谨的分析。通过将广义应变能与 Lyapunov 第二稳定性方法相结合,进一步研究了具有弯曲边缘和不同 BC 的简化梯度弹性基尔霍夫-洛夫板(SGEKLP)的动态稳定性,并以规范的形式提出了动态稳定性准则。针对不同的支撑条件,包括所有边缘都有支撑和边缘自由的情况,对 SGEKLP 在整个时域的动态稳定性进行了严格描述。与尺寸相关的静态和动态稳定性分析为设计具有微结构的弹性薄板提供了理论指导。
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
CiteScore
7.00
自引率
7.30%
发文量
275
审稿时长
48 days
期刊介绍: The European Journal of Mechanics endash; A/Solids continues to publish articles in English in all areas of Solid Mechanics from the physical and mathematical basis to materials engineering, technological applications and methods of modern computational mechanics, both pure and applied research.
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