A comprehensive review of the S-N fatigue behaviour of adhesive joints

The complex fatigue failure mechanisms render it challenging to arrive at definitive conclusions regarding the behaviour of adhesive joints under cyclic loading. The goal of this review paper is to compile the various research conducted in this field and offer insights into the S-N fatigue response...

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Published inJournal of advanced joining processes Vol. 9; p. 100178
Main Authors Sousa, F.Castro, Zamani, P., Akhavan-Safar, A., da Silva, L.F.M.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 01.06.2024
Elsevier
Subjects
Adhesive joints
Fatigue, S-N approach
Improvement techniques
Life Prediction
Nano particle reinforcement
Real applications
Surface treatment
Real applications
Improvement techniques
Life Prediction
Adhesive joints
Fatigue, S-N approach
Nano particle reinforcement
Surface treatment
Online AccessGet full text
ISSN2666-3309
2666-3309
DOI10.1016/j.jajp.2023.100178

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Abstract The complex fatigue failure mechanisms render it challenging to arrive at definitive conclusions regarding the behaviour of adhesive joints under cyclic loading. The goal of this review paper is to compile the various research conducted in this field and offer insights into the S-N fatigue response of adhesive joints. This review delves into experimental studies that investigate different factors influencing the fatigue life of bonded structures, encompassing joint geometry, environmental conditions, and loading conditions. Subsequently, the various approaches to improve the fatigue performance and durability of bonded joints are explored. It also examines S-N based life prediction methods, analysing their merits and limitations in assessing the fatigue life of adhesive joints under different conditions. In addition, this review pays attention to studies that focus on real bonded joints. It highlights the importance of bridging the gap between simplified conditions and real-world performance to ensure the durability and safety of bonded joints under service conditions. The review demonstrates that factors such as adhesive/adherend thickness, fillet, and overlap shape (e.g., wavy pattern, step, scarf) do impact fatigue life. However, the critical role played by overlap length in the fatigue life of bonded joints stands out. Improving fatigue life through adjustments, such as adhesive/adherend thickness, depends on the specific case. Therefore, further investigations are warranted in this area. The review suggests that carbon family nanoparticles can enhance bonded joint fatigue strength. Hybrid reinforcement with carbon and organic nanoparticles, like silica, offers a cost-effective path to improve joint life. Regarding life prediction, there is currently no universal fatigue model that considers all parameters impacting the fatigue life of adhesive joints. Fatigue analysis methods considered for real adhesive joints vary between sectors. Initial designs frequently employ indirect fatigue life assessment methods, yet direct fatigue analysis through testing actual joints remains essential for ensuring reliability.
AbstractList The complex fatigue failure mechanisms render it challenging to arrive at definitive conclusions regarding the behaviour of adhesive joints under cyclic loading. The goal of this review paper is to compile the various research conducted in this field and offer insights into the S-N fatigue response of adhesive joints. This review delves into experimental studies that investigate different factors influencing the fatigue life of bonded structures, encompassing joint geometry, environmental conditions, and loading conditions. Subsequently, the various approaches to improve the fatigue performance and durability of bonded joints are explored. It also examines S-N based life prediction methods, analysing their merits and limitations in assessing the fatigue life of adhesive joints under different conditions. In addition, this review pays attention to studies that focus on real bonded joints. It highlights the importance of bridging the gap between simplified conditions and real-world performance to ensure the durability and safety of bonded joints under service conditions. The review demonstrates that factors such as adhesive/adherend thickness, fillet, and overlap shape (e.g., wavy pattern, step, scarf) do impact fatigue life. However, the critical role played by overlap length in the fatigue life of bonded joints stands out. Improving fatigue life through adjustments, such as adhesive/adherend thickness, depends on the specific case. Therefore, further investigations are warranted in this area. The review suggests that carbon family nanoparticles can enhance bonded joint fatigue strength. Hybrid reinforcement with carbon and organic nanoparticles, like silica, offers a cost-effective path to improve joint life. Regarding life prediction, there is currently no universal fatigue model that considers all parameters impacting the fatigue life of adhesive joints. Fatigue analysis methods considered for real adhesive joints vary between sectors. Initial designs frequently employ indirect fatigue life assessment methods, yet direct fatigue analysis through testing actual joints remains essential for ensuring reliability.
The complex fatigue failure mechanisms render it challenging to arrive at definitive conclusions regarding the behaviour of adhesive joints under cyclic loading. The goal of this review paper is to compile the various research conducted in this field and offer insights into the S-N fatigue response of adhesive joints. This review delves into experimental studies that investigate different factors influencing the fatigue life of bonded structures, encompassing joint geometry, environmental conditions, and loading conditions. Subsequently, the various approaches to improve the fatigue performance and durability of bonded joints are explored. It also examines S-N based life prediction methods, analysing their merits and limitations in assessing the fatigue life of adhesive joints under different conditions. In addition, this review pays attention to studies that focus on real bonded joints. It highlights the importance of bridging the gap between simplified conditions and real-world performance to ensure the durability and safety of bonded joints under service conditions.The review demonstrates that factors such as adhesive/adherend thickness, fillet, and overlap shape (e.g., wavy pattern, step, scarf) do impact fatigue life. However, the critical role played by overlap length in the fatigue life of bonded joints stands out. Improving fatigue life through adjustments, such as adhesive/adherend thickness, depends on the specific case. Therefore, further investigations are warranted in this area. The review suggests that carbon family nanoparticles can enhance bonded joint fatigue strength. Hybrid reinforcement with carbon and organic nanoparticles, like silica, offers a cost-effective path to improve joint life. Regarding life prediction, there is currently no universal fatigue model that considers all parameters impacting the fatigue life of adhesive joints. Fatigue analysis methods considered for real adhesive joints vary between sectors. Initial designs frequently employ indirect fatigue life assessment methods, yet direct fatigue analysis through testing actual joints remains essential for ensuring reliability.
ArticleNumber 100178
Author Sousa, F.Castro
Akhavan-Safar, A.
da Silva, L.F.M.
Zamani, P.
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  surname: Zamani
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  organization: Department of Mechanical Engineering, Faculty of Engineering, Ferdowsi University of Mashhad, Mashhad, Iran
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Keywords Real applications
Improvement techniques
Life Prediction
Adhesive joints
Fatigue, S-N approach
Nano particle reinforcement
Surface treatment
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Snippet The complex fatigue failure mechanisms render it challenging to arrive at definitive conclusions regarding the behaviour of adhesive joints under cyclic...
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StartPage 100178
SubjectTerms Adhesive joints
Fatigue, S-N approach
Improvement techniques
Life Prediction
Nano particle reinforcement
Real applications
Surface treatment
Title A comprehensive review of the S-N fatigue behaviour of adhesive joints
URI https://dx.doi.org/10.1016/j.jajp.2023.100178
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