薄厚粘接复合材料接头疲劳性能研究

IF 6.8 2区材料科学 Q1 ENGINEERING, MECHANICAL

International Journal of Fatigue Pub Date : 2025-05-14 DOI:10.1016/j.ijfatigue.2025.109065

Angelo Savio Calabrese , Anastasios P. Vassilopoulos

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引用次数: 0

摘要

自20世纪50年代以来，人们开始对粘接接头的疲劳性能进行研究。为了满足各种结构在各种载荷和环境条件下工作的需要，已经出现了大量关于各种几何形状和材料组合的粘接接头疲劳性能的实验研究。本文通过分析相关文献和回顾当前主要应用的测试标准，对复合材料粘接接头的疲劳进行了综述。它根据所使用的材料和结合线厚度对接缝进行分类，从薄膜粘合接缝到厚膏状粘合接缝，涵盖了广泛的当代工程应用。这些发现引发了一场全面的讨论，为该领域的进一步研究奠定了基础。

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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On the fatigue behavior of thin and thick adhesively bonded composite joints

Investigations of the fatigue performance of adhesively bonded joints were initiated since the 1950 s. An abundance of publications has emerged dealing with the experimental investigation of the fatigue performance of adhesively bonded joints of various geometries and material combinations to serve the needs of various structures operating under various loading and environmental conditions. This work reviews the fatigue of composite adhesively bonded joints by analyzing relevant literature and reviewing current testing standards for primary applications. It classifies joints based on the materials used and the bondline thickness moving from thin film adhesive joints to thick paste adhesive joints to cover a wide range of contemporary engineering applications. The findings lead to a comprehensive discussion that lays the groundwork for further research in this field.

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来源期刊

International Journal of Fatigue 工程技术-材料科学：综合

CiteScore

10.70

自引率

21.70%

发文量

619

审稿时长

58 days

期刊介绍： Typical subjects discussed in International Journal of Fatigue address: Novel fatigue testing and characterization methods (new kinds of fatigue tests, critical evaluation of existing methods, in situ measurement of fatigue degradation, non-contact field measurements) Multiaxial fatigue and complex loading effects of materials and structures, exploring state-of-the-art concepts in degradation under cyclic loading Fatigue in the very high cycle regime, including failure mode transitions from surface to subsurface, effects of surface treatment, processing, and loading conditions Modeling (including degradation processes and related driving forces, multiscale/multi-resolution methods, computational hierarchical and concurrent methods for coupled component and material responses, novel methods for notch root analysis, fracture mechanics, damage mechanics, crack growth kinetics, life prediction and durability, and prediction of stochastic fatigue behavior reflecting microstructure and service conditions) Models for early stages of fatigue crack formation and growth that explicitly consider microstructure and relevant materials science aspects Understanding the influence or manufacturing and processing route on fatigue degradation, and embedding this understanding in more predictive schemes for mitigation and design against fatigue Prognosis and damage state awareness (including sensors, monitoring, methodology, interactive control, accelerated methods, data interpretation) Applications of technologies associated with fatigue and their implications for structural integrity and reliability. This includes issues related to design, operation and maintenance, i.e., life cycle engineering Smart materials and structures that can sense and mitigate fatigue degradation Fatigue of devices and structures at small scales, including effects of process route and surfaces/interfaces.