利用数字图像相关分析疲劳载荷下裂纹搭接剪切试样的剥离应变和剪切应变

Acta Polytechnica CTU Proceedings Pub Date : 2023-10-12 DOI:10.14311/app.2023.42.0067

Alessandra Panerai, Gianmarco Piccoli, Luca Michele Martulli, Andrea Bernasconi, Michele Carboni

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引用次数: 0

摘要

粘接具有制造效率高、结构性能改善等优点[1]。然而，在经受疲劳作用的结构中，裂纹可能在接头中萌生并扩展，导致在役失效[2]。粘接节点大多承受剥离和剪切双重载荷，因此存在混合I+II型加载条件[3]。本文采用I+II混合加载模式，对试件进行疲劳加载试验。在测试过程中，使用视觉测试和数字图像相关来监测裂纹扩展。利用数字图像相关技术，从基板位移场中提取键合线上的开口位移和滑动位移，并与有限元模型进行比较，揭示了裂纹尖端前方的高度应变过程区。结果强调了DIC在捕获粘接接头在混合模式加载条件下的变形行为方面的有效性。

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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Analysis of peel and shear strains in cracked lap shear specimens subjected to fatigue loading using digital image correlation

Adhesive bonding presents many advantages, such as efficient manufacturing and improved structural performance [1]. However, in structures subjected to fatigue, cracks might initiate and propagate in joints, leading to in-service failure [2]. Most adhesively bonded joints are subjected to combination of peel and shear loads, so mixed I+II mode loading conditions are present [3]. In this work, Cracked Lap Shear specimens, which feature mixed I+II mode loading conditions, were tested under fatigue loading. During tests, crack growth was monitored using Visual Testing and Digital Image Correlation. With Digital Image Correlation, opening and sliding displacements in the bondline were extracted from the substrates’ displacement fields and compared against a Finite Element Model, revealing a highly strained process zone ahead of the crack tip. Results highlight the usefulness of DIC in capturing the deformation behaviour of adhesive joints under mixed mode loading conditions.

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来源期刊

Acta Polytechnica CTU Proceedings

CiteScore

0.40

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0.00%

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