2024
DOI: 10.3390/polym16050602
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Thermo-Mechanical Characterization of Metal–Polymer Friction Stir Composite Joints—A Full Factorial Design of Experiments

Arménio N. Correia,
Beatriz M. Gaspar,
Gonçalo Cipriano
et al.

Abstract: With the increasing demand for lighter, more environmentally friendly, and affordable solutions in the mobility sector, designers and engineers are actively promoting the use of innovative integral dissimilar structures. In this field, friction stir-based technologies offer unique advantages compared with conventional joining technologies, such as mechanical fastening and adhesive bonding, which recently demonstrated promising results. In this study, an aluminum alloy and a glass fiber-reinforced polymer were … Show more

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Cited by 4 publications
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“…The bonding strength gradually decreases with the sharpening of the defect's geometric angle. This is caused by the fact that the stress concentration in the bonding zone is due to a sharp angle appearing in the process of defect morphology evolution; tip-splitting [30] easily occurs during the energy dissipation process, which leads to the initiation and propagation of cracks [32,40,41]. Meanwhile, examining various morphological defects, it can be seen that the defect has a small effect on the bonding strength at an area ratio of 1%, and the strength reduction is kept below 8.5%.…”
Section: Effect Of Defect Shape and Sizementioning
confidence: 99%
“…The bonding strength gradually decreases with the sharpening of the defect's geometric angle. This is caused by the fact that the stress concentration in the bonding zone is due to a sharp angle appearing in the process of defect morphology evolution; tip-splitting [30] easily occurs during the energy dissipation process, which leads to the initiation and propagation of cracks [32,40,41]. Meanwhile, examining various morphological defects, it can be seen that the defect has a small effect on the bonding strength at an area ratio of 1%, and the strength reduction is kept below 8.5%.…”
Section: Effect Of Defect Shape and Sizementioning
confidence: 99%