Ingenieurwissenschaften und zugeordnete Tätigkeiten
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- 2022 (3) (entfernen)
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- Laser hybrid welding (3) (entfernen)
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- 9.3 Schweißtechnische Fertigungsverfahren (3) (entfernen)
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-With modern high-power lasers (and vacuum) penetration around 100 mm is possible
-Important for industrial applications: single-pass full penetration welds with tolerances
-Contactless EM-backing helps to overcome many main restrictions:
-Single-pass HLAW of up to 30 mm can be realized with 20 kW laser power
-Increase of the gap bridgeability and misalignement of edges
-Lower sensitivity to manufacturing tolerances and edge quality; samples can be prepared by a plasma-cut instead of time-consuming milling process
-Gives the possibility to increase the welding parameter window and cooling rate so that the required mechanical properties can be reached
-Improved filler wire mixing behaviour
The study deals with the influence of the heat input and the resulting cooling times on the microstructure and Charpy impact toughness of single-pass laser hybrid welded 20-mm thick high-strength steel S690QL. The main focus is on the change of the mechanical properties over the entire seam thickness. The cooling times were measured in-situ using a pyrometer and an optical fibre in three different depths of the seam where Charpy impact test specimens were also later taken. Thereby, three different heat inputs from 1.3 kJ/mm to 2 kJ/mm were investigated. Despite the observed decreased values of both t8/5-cooling time and the Charpy impact toughness in the root part of the seam, the required impact toughness of 38 J/cm2 could be reached in dependance on applied heat input, especially at the heat input of 1.6 kJ/mm.
The study deals with the influence of the heat input and the resulting cooling times on the microstructure and Charpy impact toughness of single-pass laser hybrid welded 20-mm thick high-strength steel S690QL. The main focus is on the change of the mechanical properties over the entire seam thickness. The cooling times were measured in-situ using a pyrometer and an optical fibre in three different depths of the seam where Charpy impact test specimens were also later taken. Thereby, three different heat inputs from 1.3 kJ/mm to 2 kJ/mm were investigated. Despite the observed decreased values of both t8/5-cooling time and the Charpy impact toughness in the root part of the seam, the required impact toughness of 38 J/cm2 could be reached in dependance on applied heat input, especially at the heat input of 1.6 kJ/mm.