The degrees of freedom and the process limits of laser welding are considerably enhanced in laser hybrid and combination welding techniques. The application of these techniques is illustrated below in two examples. The first is an example of hybrid welding and deals with single-pass laser-MAG hybrid welding of high-strength steel plates up to 30 mm thick, with large gap tolerances. The second addresses the manufacturing benefits of integrated cutting and welding using a multifunctional laser combi-head
New brilliant high-power lasers such as disc laser and fibre laser open up new fields of application...
Within the European project HYBLAS, funded by the Research Fund for Coal and Steel (RFCS), significa...
The project is elaborated for the basic analysis of hybrid welding that combines laser welding with ...
The degree of freedom for optimization of laser welding processes is further enhanced and process li...
The laser welding process is the most flexible fusion welding process industrially available. The de...
The laser-MIG hybrid welding process is explained regarding the mechanism and the fundamental rules ...
This paper presents results from an ongoing investigation into laser-arc-hybrid welding of thick, hi...
Laser are hybrid welding has been investigated since 1978, when Prof. Steen and coworkers in the UK ...
The idea of coupling a laser beam with a gas metal arc (GMA) has significantly expanded the original...
High demands are placed on the joining of body parts in terms of strength and consistent quality. Si...
A laser beam is still a relatively expensive energy source. Therefore, hybrid processes are getting ...
Laser and hybrid laser-arc welding are used at present in modern industry, having many advantages ov...
The idea of coupling a laser beam with a gas metal arc (GMA) has significantly expanded the original...
Laser-arc hybrid welding processes are meanwhile recognized for their robustness, efficiency and fle...
Hybrid laser welding technologies can be defined as the combination of a high quality laser heat sou...
New brilliant high-power lasers such as disc laser and fibre laser open up new fields of application...
Within the European project HYBLAS, funded by the Research Fund for Coal and Steel (RFCS), significa...
The project is elaborated for the basic analysis of hybrid welding that combines laser welding with ...
The degree of freedom for optimization of laser welding processes is further enhanced and process li...
The laser welding process is the most flexible fusion welding process industrially available. The de...
The laser-MIG hybrid welding process is explained regarding the mechanism and the fundamental rules ...
This paper presents results from an ongoing investigation into laser-arc-hybrid welding of thick, hi...
Laser are hybrid welding has been investigated since 1978, when Prof. Steen and coworkers in the UK ...
The idea of coupling a laser beam with a gas metal arc (GMA) has significantly expanded the original...
High demands are placed on the joining of body parts in terms of strength and consistent quality. Si...
A laser beam is still a relatively expensive energy source. Therefore, hybrid processes are getting ...
Laser and hybrid laser-arc welding are used at present in modern industry, having many advantages ov...
The idea of coupling a laser beam with a gas metal arc (GMA) has significantly expanded the original...
Laser-arc hybrid welding processes are meanwhile recognized for their robustness, efficiency and fle...
Hybrid laser welding technologies can be defined as the combination of a high quality laser heat sou...
New brilliant high-power lasers such as disc laser and fibre laser open up new fields of application...
Within the European project HYBLAS, funded by the Research Fund for Coal and Steel (RFCS), significa...
The project is elaborated for the basic analysis of hybrid welding that combines laser welding with ...