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Experimental and Numerical Study for the Optimization of Process Parameters in Laser Welded and Adhesively Bonded PBT GF30 Fillet Joints
Title
Experimental and Numerical Study for the Optimization of Process Parameters in Laser Welded and Adhesively Bonded PBT GF30 Fillet Joints
Type
Article in International Conference Proceedings Book
Year
2025
Authors
Silva, LRR
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Marques, EAS
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FEUP
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Carbas, RJC
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da Silva, LFM
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Conference proceedings International
Title:
3RD INTERNATIONAL CONFERENCE ON INDUSTRIAL APPLICATIONS OF ADHESIVES 2024, IAA 2024
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Pages: 85-111
3rd International Conference on Industrial Applications of Adhesives (IAA)
Cascais, PORTUGAL, MAR 07-08, 2024
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Authenticus ID:
P-017-FW7
Abstract (EN):
With the advancement of technological processes and the application of fibre-reinforced polymer matrices in elements of vehicles, there has been a demand for the optimization of productivity, enhancing automation, reduction in process time and increasing the quality of part joining, allowing to manufacture high performance protective enclosures for electrical circuits. In this context, the laser welding process has gained importance especially when the polymer matrix is thermoplastic. On the other hand, adhesive bonding also has a wide application in this market, although it often harder to automate and requires a longer time for the curing of the process, which can reduce productivity. This work aims to study and optimize the laser welding parameters in overlapped joints of PBT GF30, joined by fillets at the ends performed through manual laser spot welding, to experimentally compare with joints with similar geometries joined by adhesive joints, validated by numerical models for the experimental conditions. The model identified the most effective parameters and was found to replicate the experimental results with a high degree of accuracy.
Language:
English
Type (Professor's evaluation):
Scientific
No. of pages:
27
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