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- Hybrid welding (3) (entfernen)
Within the framework of an AiF (The German Federation of Industrial Research Associations) project, investigations were conducted into the solidification behaviour of various high-alloy austenitic steels in laser and laser-GMA hybrid welding. For comparison purposes, reference was made to pure gas metalarc welding tests. It was possible to raise the welding speeds in hybrid welding compared with the individual gas metal-arc (GMA) and laser welding processes. The central subjects of the investigations were the type of solidification and the connected hot cracking behaviour during welding. In this respect, particular attention was paid not only to the kinetic effects during solidification which may be caused by the high solidification rates in laser and hybrid welding but also to their consequences.
Laser Plasma Hybrid Welding of Austenitic Stainless Steels - Phenomena of Process Instability
(2007)
Laser plasma hybrid welding has been proved to be a very stable hybrid welding process and
welds of high quality can be produced, especially if high surface quality and low spattering is
demanded such as in welding fabrication of high alloyed austenitic stainless steels.
In particular cases, even though welds display high outer quality, X-ray examinations
revealed weld defects which may range from low porosity to blowhole-like cavities. The
phenomena and the main influencing parameters such as arc current, welding speed and
focal point position are discussed. Parameter fields will be suggested for welding plates of
different austenitic stainless steel grades with thicknesses ranging from 3 to 8 mm. The
results are based on welding experiments carried out using a 4.4 kW diode pumped Nd:YAGlaser.
Thus, also the influence of the feeding fibre diameter has been investigated and it was found
that the resulting beam shape has a major effect on the welding performance.