Wrinkling of Hyperelastic Thin Film on Hyperelastic Semibounded Substrate in Cases of Rigid Connection and Frictionless Sliding of Components

IF 1.8 3区工程技术 Q2 ENGINEERING, MULTIDISCIPLINARY

Journal of Elasticity Pub Date : 2025-04-23 DOI:10.1007/s10659-025-10130-y

A. L. Kipnis

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引用次数: 0

Abstract

Using general solutions of the equilibrium equations of linearized stability theory, transcendental equations for determining the critical strains corresponding to the onset of wrinkling of a thin coating film located on a semibounded substrate are obtained. The substrate/film (bilayer) system is assumed to be under plane strain conditions, and the body materials are nonlinearly elastic with arbitrary structures of elastic potentials. Two variants of the boundary conditions at the interface are considered: perfectly bonded layers and perfectly lubricated layers, corresponding to the “strongest” and “weakest” types of bonding between the bilayer components. Numerical results for determining the critical values of the wrinkling strain are presented for the harmonic potential (compressible bodies, large strains), the quadratic potential (compressible bodies, small strains), the Treloar potential, and the Bartenev–Khazanovich potential (incompressible bodies, large strains). The nature of the dependence of the critical strain and critical wavelength on the elastic constants of the substrate and film materials and on the type of elastic potential was studied. A comparison of the obtained results with known theoretical and experimental results was carried out.

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元件刚性连接和无摩擦滑动情况下超弹性半有界基板上超弹性薄膜的起皱

利用线性化稳定性理论平衡方程的通解，得到了确定半有界基底上薄涂层起皱时临界应变的超越方程。假设衬底/薄膜（双层）系统处于平面应变条件下，体材料是具有任意弹性势的非线性弹性结构。考虑了界面边界条件的两种变体：完美结合层和完美润滑层，对应于双层组件之间“最强”和“最弱”的结合类型。给出了确定起皱应变临界值的调和势（可压缩体，大应变）、二次势（可压缩体，小应变）、Treloar势和Bartenev-Khazanovich势（不可压缩体，大应变）的数值结果。研究了临界应变和临界波长对衬底和薄膜材料弹性常数以及弹性势类型的依赖性质。将所得结果与已知的理论和实验结果进行了比较。

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

Journal of Elasticity 工程技术-材料科学：综合

CiteScore

3.70

自引率

15.00%

发文量

审稿时长

>12 weeks

期刊介绍： The Journal of Elasticity was founded in 1971 by Marvin Stippes (1922-1979), with its main purpose being to report original and significant discoveries in elasticity. The Journal has broadened in scope over the years to include original contributions in the physical and mathematical science of solids. The areas of rational mechanics, mechanics of materials, including theories of soft materials, biomechanics, and engineering sciences that contribute to fundamental advancements in understanding and predicting the complex behavior of solids are particularly welcomed. The role of elasticity in all such behavior is well recognized and reporting significant discoveries in elasticity remains important to the Journal, as is its relation to thermal and mass transport, electromagnetism, and chemical reactions. Fundamental research that applies the concepts of physics and elements of applied mathematical science is of particular interest. Original research contributions will appear as either full research papers or research notes. Well-documented historical essays and reviews also are welcomed. Materials that will prove effective in teaching will appear as classroom notes. Computational and/or experimental investigations that emphasize relationships to the modeling of the novel physical behavior of solids at all scales are of interest. Guidance principles for content are to be found in the current interests of the Editorial Board.