Experimental study on the influence of environmental conditions on the fatigue behaviour of adhesive joints

The fatigue behaviour of adhesive joints under the influence of environmental conditions has been the subject of several studies. However, a significant knowledge gap still exists, particularly regarding the understanding of failure mechanisms associated with these phenomena. This research presents...

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Published inInternational journal of fatigue Vol. 175; p. 107752
Main Authors Castro Sousa, Fernando, Akhavan-Safar, Alireza, Carbas, Ricardo J.C., Marques, Eduardo A.S., Barbosa, Ana Q., da Silva, Lucas F.M.
Format Journal Article
LanguageEnglish
Published Elsevier Ltd 01.10.2023
Subjects
Adhesive joints
Environmental effects
Failure mechanism
Fatigue
Single lap joint
S–N curves
Failure mechanism
Adhesive joints
Fatigue
Single lap joint
S–N curves
Environmental effects
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Abstract The fatigue behaviour of adhesive joints under the influence of environmental conditions has been the subject of several studies. However, a significant knowledge gap still exists, particularly regarding the understanding of failure mechanisms associated with these phenomena. This research presents a novel investigation into failure modes under varying environmental conditions of adhesively bonded single lap joints (SLJ), particularly focusing on the transition between static and fatigue loading. Utilising numerical simulation and experimental observations, the study offers valuable insights into the failure mode transition and its dependence on the environment. Results shown that, both temperature and humidity reduced the fatigue strength of the joints, mostly for lower fatigue lives, up to 10 times. Fatigue changed the failure mode from cohesive to mixed cohesive–adhesive. Thus, static tests proved inadequate in predicting fatigue fracture path. Adhesive failure area increased with decreasing load level (up to 60%). These phenomena were ascribed to the numerically determined SLJ’s stress concentration. The findings contribute to improving the design of adhesive joints for enhanced fatigue resistance in different environments. •Fatigue behaviour of bonded joints was experimentally analysed for various environments.•Loading type changed failure mode from cohesive (static) to cohesive–adhesive (fatigue).•The percentage of adhesive failure increased with decreasing fatigue load level.•Failure mode transition was ascribed to numerically determined stress concentration.
AbstractList The fatigue behaviour of adhesive joints under the influence of environmental conditions has been the subject of several studies. However, a significant knowledge gap still exists, particularly regarding the understanding of failure mechanisms associated with these phenomena. This research presents a novel investigation into failure modes under varying environmental conditions of adhesively bonded single lap joints (SLJ), particularly focusing on the transition between static and fatigue loading. Utilising numerical simulation and experimental observations, the study offers valuable insights into the failure mode transition and its dependence on the environment. Results shown that, both temperature and humidity reduced the fatigue strength of the joints, mostly for lower fatigue lives, up to 10 times. Fatigue changed the failure mode from cohesive to mixed cohesive–adhesive. Thus, static tests proved inadequate in predicting fatigue fracture path. Adhesive failure area increased with decreasing load level (up to 60%). These phenomena were ascribed to the numerically determined SLJ’s stress concentration. The findings contribute to improving the design of adhesive joints for enhanced fatigue resistance in different environments. •Fatigue behaviour of bonded joints was experimentally analysed for various environments.•Loading type changed failure mode from cohesive (static) to cohesive–adhesive (fatigue).•The percentage of adhesive failure increased with decreasing fatigue load level.•Failure mode transition was ascribed to numerically determined stress concentration.
ArticleNumber 107752
Author Barbosa, Ana Q.
da Silva, Lucas F.M.
Carbas, Ricardo J.C.
Akhavan-Safar, Alireza
Marques, Eduardo A.S.
Castro Sousa, Fernando
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Keywords Failure mechanism
Adhesive joints
Fatigue
Single lap joint
S–N curves
Environmental effects
Language English
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Snippet The fatigue behaviour of adhesive joints under the influence of environmental conditions has been the subject of several studies. However, a significant...
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StartPage 107752
SubjectTerms Adhesive joints
Environmental effects
Failure mechanism
Fatigue
Single lap joint
S–N curves
Title Experimental study on the influence of environmental conditions on the fatigue behaviour of adhesive joints
URI https://dx.doi.org/10.1016/j.ijfatigue.2023.107752
Volume 175
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