Publication: A non-linear elastic-plastic stress analysis in a ductile double-lap joint
Date
Authors
Korkmaz, Behiye
Authors
Sayman, Onur
Özen, Mustafa
Özel, Adnan
Demir, Teyfik
Advisor
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De Gruyter Poland
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Abstract
In this study, an elastic-plastic stress analysis was proposed in order to obtain shear stress distribution in a double-lap joint, analytically. The solution was carried out using incremental theory. The obtained shear stress was then used for determining the peel stress in the adhesive. The elastic peel stress distribution in the adhesive was determined using Newton-Raphson method. In this study, FM73 (Cytec Industries Inc., New Jersey, USA) ductile adhesive was selected as it represents plastic hardening. The analytical results were compared with the finite element solution. For that, ANSYS 10 Software (Figes Engineering A.S., Turkey) was used so as to compare with the analytical results. A good agreement was obtained between the two methods.
Description
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Keywords
Materials science, Analytical solution, Double-lap joint, Elastic-plastic stress analysis, Finite element solution, Peel stress, Prediction, Adherends, Newton-Raphson method, Shear stress, Stress analysis, Stress concentration, Analytical results, Plastic hardening, Ductile adhesives, Double-lap joints, Elastic-plastic stress analysis, Finite element solution, Incremental theories, Peel stress, Elastoplasticity
Citation
Sayman, O. vd. (2013). “A non-linear elastic-plastic stress analysis in a ductile double-lap joint”. Science and Engineering of Composite Materials, 20(2), 163-168.