Influence of Laser Surface Modification on Bonding Strength of Al/Mg Adhesive Joints

Key properties of magnesium alloys, such as the high strength-to-density ratio, are driving the production of lightweight structural components in the automotive and aeronautical industries. Many efforts have been carried out on various aspects of processing and fabrication, but the joining of Mg al...

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Published in	Journal of adhesion science and technology Vol. 25; no. 11; pp. 1261 - 1276
Main Authors	Alfano, M., Ambrogio, G., Crea, F., Filice, L., Furgiuele, F.
Format	Journal Article
Language	English
Published	Abingdon Taylor & Francis Group 01.01.2011 Taylor & Francis
Subjects	Adhesive bonding Application fields Applied sciences EPOXY ADHESIVE Exact sciences and technology Joining, thermal cutting: metallurgical aspects LASER TREATMENT MAGNESIUM ALLOY Metals. Metallurgy Polymer industry, paints, wood SINGLE-LAP JOINTS Technology of polymers Adhesivity Lap joint Laser assisted processing Epoxy resin Mechanical properties Shear strength laser treatment single-lap joints Adhesive bonding Aluminium alloy Experimental study Surface treatment epoxy adhesive Pulsed laser Morphology Adhesive joint Magnesium alloy Surface properties Adhesive
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ISSN	0169-4243 1568-5616
DOI	10.1163/016942410X533381

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Abstract	Key properties of magnesium alloys, such as the high strength-to-density ratio, are driving the production of lightweight structural components in the automotive and aeronautical industries. Many efforts have been carried out on various aspects of processing and fabrication, but the joining of Mg alloys to dissimilar materials is a subject which attracted much research interest in the last decades. In the present work a preliminary investigation on the strength of Al/Mg (AA6082/AZ31B) single-lap epoxy bonded joints was carried out. To this aim, Mg and Al substrates were laser irradiated using a pulsed ytterbium fiber laser. For comparison, and in order to estimate the beneficial action of the laser surface treatment, single lap joints with grit-blasted substrates were prepared and tested. The interaction between laser treated surfaces and two different epoxy adhesives was also analyzed. Finally, the results and discussion were supported by scanning electron microscopy (SEM) and energy dispersive spectroscopy (EDS) executed on treated and post-failure sample surfaces.
AbstractList	Key properties of magnesium alloys, such as the high strength-to-density ratio, are driving the production of lightweight structural components in the automotive and aeronautical industries. Many efforts have been carried out on various aspects of processing and fabrication, but the joining of Mg alloys to dissimilar materials is a subject which attracted much research interest in the last decades. In the present work a preliminary investigation on the strength of Al/Mg (AA6082/AZ31B) single-lap epoxy bonded joints was carried out. To this aim, Mg and Al substrates were laser irradiated using a pulsed ytterbium fiber laser. For comparison, and in order to estimate the beneficial action of the laser surface treatment, single lap joints with grit-blasted substrates were prepared and tested. The interaction between laser treated surfaces and two different epoxy adhesives was also analyzed. Finally, the results and discussion were supported by scanning electron microscopy (SEM) and energy dispersive spectroscopy (EDS) executed on treated and post-failure sample surfaces.
Author	Alfano, M. Furgiuele, F. Crea, F. Ambrogio, G. Filice, L.
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Keywords	Adhesivity Lap joint Laser assisted processing Epoxy resin Mechanical properties Shear strength laser treatment single-lap joints Adhesive bonding Aluminium alloy Experimental study Surface treatment epoxy adhesive Pulsed laser Morphology Adhesive joint Magnesium alloy Surface properties Adhesive
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SubjectTerms	Adhesive bonding Application fields Applied sciences EPOXY ADHESIVE Exact sciences and technology Joining, thermal cutting: metallurgical aspects LASER TREATMENT MAGNESIUM ALLOY Metals. Metallurgy Polymer industry, paints, wood SINGLE-LAP JOINTS Technology of polymers
Title	Influence of Laser Surface Modification on Bonding Strength of Al/Mg Adhesive Joints
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