Elastic Foundation Solution for the End Notched Flexure (ENF) Mode II Sandwich Configuration

Journal of Applied Mechanics Pub Date : 2024-07-16 DOI:10.1115/1.4065991

Minh Hung Nguyen, G. Kardomateas

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Abstract

This paper presents a closed form solution for the energy release rate of face/core debonds in the Mode II end notched flexure (ENF) sandwich configuration. The finite-length sandwich specimen is considered to have a “debonded” region and a “joined” region. In the later, the interface between the top face and the substrate (core and bottom face) is modeled by an elastic foundation, which is a uniform distribution of shear and normal springs. Based on the Timoshenko beam theory, the solution for a general asymmetric sandwich construction is derived. The energy release rate expression is derived via the J-integral. Another closed form expression for the energy release rate is derived from the energy released by a differential spring as the debond propagates. In this closed form solution there is no fitting and everything, including the foundation constants, are given in closed form. Results are produced for a range of face/core stiffness ratios and debond length/core thickness ratios, and are compared with the corresponding ones from a finite element solution. A very good agreement is observed except for small debond lengths vs specimen thickness.

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末端缺口挠曲（ENF）模式 II 夹层结构的弹性地基解决方案

本文提出了模式 II 端部缺口挠曲（ENF）夹层结构中面/芯脱粘能量释放率的闭式解法。有限长度夹层试样被视为具有 "脱粘 "区域和 "连接 "区域。在 "脱粘 "区域中，顶面与基体（夹芯和底面）之间的界面由弹性地基模拟，弹性地基是剪切弹簧和法向弹簧的均匀分布。根据季莫申科梁理论，得出了一般非对称夹层结构的解决方案。能量释放率表达式通过 J 积分得出。能量释放率的另一个封闭式表达式是通过微分弹簧在脱粘传播过程中释放的能量推导出来的。在这种封闭式解法中，不需要拟合，包括基础常数在内的所有内容都以封闭式形式给出。针对一系列面/芯刚度比和脱胶长度/芯厚度比得出了结果，并与有限元解法得出的相应结果进行了比较。除了较小的脱粘长度与试样厚度比之外，两者的一致性非常好。

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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Journal of Applied Mechanics

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