CO2 laser beam welding of AM60 magnesium-based alloy

Magnesium alloys have a 33% lower density than aluminum alloys, whereas they exhibit the same mechanical characteristics. Their application increases in many economic sectors, in particular, in aeronautic and automotive industries. Nevertheless, their assembly with welding techniques still remains t...

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Veröffentlicht in:	Journal of laser applications 2010-05, Vol.22 (2), p.56-61
Hauptverfasser:	Belhadj, Asma, Masse, Jean-Eric, Barrallier, Laurent, Bouhafs, Mahmoud, Bessrour, Jamel
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Sprache:	eng
Schlagworte:	Engineering Sciences Materials
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container_title	Journal of laser applications
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creator	Belhadj, Asma Masse, Jean-Eric Barrallier, Laurent Bouhafs, Mahmoud Bessrour, Jamel
description	Magnesium alloys have a 33% lower density than aluminum alloys, whereas they exhibit the same mechanical characteristics. Their application increases in many economic sectors, in particular, in aeronautic and automotive industries. Nevertheless, their assembly with welding techniques still remains to be developed. In this paper, we present a CO2 laser welding investigation of AM60 magnesium-based alloy. Welding parameters range is determinate for the joining of 3 mm thickness sheets. The effects of process parameters including beam power, welding speed, focusing position, and shielding gas flow are studied. Experimental results show that the main parameters that determine the weld quality are the laser beam power, the welding speed, and the shielding gas flow. The focal point position has a minor effect on weld quality, however, it has an influence on melting zone width. For optimized welding parameters, metallurgical observations show that after laser welding of AM60 alloy dendritic microstructure is observed on melting zone after high solidification rate. A small heat affected zone is also detected. Finally, hardness tests indicate that microhardness of the weld is higher than that of base metal.
doi_str_mv	10.2351/1.3455823
format	Article
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Their application increases in many economic sectors, in particular, in aeronautic and automotive industries. Nevertheless, their assembly with welding techniques still remains to be developed. In this paper, we present a CO2 laser welding investigation of AM60 magnesium-based alloy. Welding parameters range is determinate for the joining of 3 mm thickness sheets. The effects of process parameters including beam power, welding speed, focusing position, and shielding gas flow are studied. Experimental results show that the main parameters that determine the weld quality are the laser beam power, the welding speed, and the shielding gas flow. The focal point position has a minor effect on weld quality, however, it has an influence on melting zone width. For optimized welding parameters, metallurgical observations show that after laser welding of AM60 alloy dendritic microstructure is observed on melting zone after high solidification rate. A small heat affected zone is also detected. 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language	eng
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source	American Institute of Physics (AIP) Journals
subjects	Engineering Sciences Materials
title	CO2 laser beam welding of AM60 magnesium-based alloy
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