Add to ORKGThis paper presents the integration of scanner-based laser deposition welding into a hybrid machining centre and an approach to support programming the added manufacturing process with process-specific NC cycles. The challenges in programming the complicated operation sequences of the manufacturing processes and the gained options of combining locally generative processes with milling in a single workpiece clamping are described
The laser-MIG hybrid welding process is explained regarding the mechanism and the fundamental rules ...
An approach to improve the quality of offline programming for laser beam welding is described. A CAD...
WO2003089185 A UPAB: 20031125 NOVELTY - The machining method uses a hybrid machining process (24) in...
This paper presents an analysis of a scanner-based laser cladding process and its integration into a...
Laser additive manufacturing technologies have to be integrated into sophisticated process chains in...
Purpose Laser materials processing system technology has become indispensible to the tool and die ma...
Additive manufacturing allows for complex, individualized and customized geometries. With technologi...
Galvanometric laser scanners enable a high process speed for laser material processing. However, the...
Today's situation with increasingly shorter time-to-market limits and growing variant spectra calls ...
Laser welding is an established manufacturing technology for a large variety of automotive applicati...
In the past few years, the Fraunhofer IPT has presented the development of laser generating, a rapid...
This paper presents the research and development of a hybrid rapid manufacturing process being devel...
AbstractAn innovative laser cladding technology based on laser scanning is presented. The variable s...
Its high impact on functional and aesthetical properties makes the polishing operation a crucial par...
The present work defines a strategy to perform an automatic setup procedure for a laser milling manu...
The laser-MIG hybrid welding process is explained regarding the mechanism and the fundamental rules ...
An approach to improve the quality of offline programming for laser beam welding is described. A CAD...
WO2003089185 A UPAB: 20031125 NOVELTY - The machining method uses a hybrid machining process (24) in...
This paper presents an analysis of a scanner-based laser cladding process and its integration into a...
Laser additive manufacturing technologies have to be integrated into sophisticated process chains in...
Purpose Laser materials processing system technology has become indispensible to the tool and die ma...
Additive manufacturing allows for complex, individualized and customized geometries. With technologi...
Galvanometric laser scanners enable a high process speed for laser material processing. However, the...
Today's situation with increasingly shorter time-to-market limits and growing variant spectra calls ...
Laser welding is an established manufacturing technology for a large variety of automotive applicati...
In the past few years, the Fraunhofer IPT has presented the development of laser generating, a rapid...
This paper presents the research and development of a hybrid rapid manufacturing process being devel...
AbstractAn innovative laser cladding technology based on laser scanning is presented. The variable s...
Its high impact on functional and aesthetical properties makes the polishing operation a crucial par...
The present work defines a strategy to perform an automatic setup procedure for a laser milling manu...
The laser-MIG hybrid welding process is explained regarding the mechanism and the fundamental rules ...
An approach to improve the quality of offline programming for laser beam welding is described. A CAD...
WO2003089185 A UPAB: 20031125 NOVELTY - The machining method uses a hybrid machining process (24) in...