Hybrid model for the threshold of deep-penetration laser welding. Proceedings of the Lasers in Manufacturing Conference 2023, 2023. [PUMA: myown welding laser Modeling]
Laser beam quality welds – Learning from other processes. Procedia CIRP, (111):401--404, Elsevier BV, 2022. [PUMA: myown Welding peer Laser MacroMaterialProcessing] URL
Influence of superimposed intensity distributions on the welding process and the spatter behavior during laser welding of steel. 2019. [PUMA: LaserMatterInteraction myown Diagnostics Welding Capillary Laser BeamShaping Steel]
Influence of superimposed intensity distributions on the welding process and the spatter behavior during laser welding of steel. Proceedings of the Lasers in Manufacturing Conference 2019, 2019. [PUMA: LaserMatterInteraction myown Diagnostics Welding Capillary Laser BeamShaping MacroMaterialProcessing]
INVESTIGATION OF THE INFLUENCE OF SUPERIMPOSED INTENSITY DISTRIBUTIONS ON THE SPATTER BEHAVIOR IN LASER WELDING OF STEEL USING ONLINE X-RAY DIAGNOSTICS. Proceedings of the 37th International Congress on Applications of Lasers & Electro-Optics (ICALEO 2018), Laser Institute of America, Oktober 2018. [PUMA: LaserMatterInteraction myown Diagnostics Welding Capillary Laser BeamShaping MacroMaterialProcessing Steelsend:unibiblio] URL
Weld Seam Geometry and Electrical Resistance of Laser-Welded, Aluminum-Copper Dissimilar Joints Produced with Spatial Beam Oscillation. Metals, (8)7:510, Multidisciplinary Digital Publishing Institute, 2018. [PUMA: myown Welding Peer Laser] URL
INVESTIGATION OF THE INFLUENCE OF SUPERIMPOSED INTENSITY DISTRIBUTIONS ON THE SPATTER BEHAVIOR IN LASER WELDING OF STEEL USING ONLINE X-RAY DIAGNOSTICS. 2018. [PUMA: LaserMatterInteraction myown Diagnostics Welding Capillary Laser BeamShaping Steel]
X-Ray investigations of the capillary shape and melt flows during laser welding of steel using superimposed intensity distributions. 2018. [PUMA: LaserMatterInteraction myown Diagnostics Welding Capillary Laser BeamShaping MacroMaterialProcessing Steel]
SPATIAL BEAM MODULATION TO REDUCE ELECTRICAL RESISTANCE IN LASER WELDED ALUMINUM TO COPPER DISSIMILAR JOINTS. Proceedings of the 36th International Congress on Applications of Lasers & Electro-Optics (ICALEO 2017), Laser Institute of America, Oktober 2017. [PUMA: LaserMatterInteraction myown Welding Laser] URL
Low electrical resistance of aluminum to copper joints achieved with temporal and spatial laser beam modulation. Lasers in Manufacturing Conference 2017, WLT, Juni 2017. [PUMA: LaserMatterInteraction myown Welding Laser]
Low electrical resistance of aluminum to copper joints achieved with temporal and spatial laser beam modulation. 2017. [PUMA: myown welding Laser lasermatterinteraction]
Spatial beam modulation to reduce electrical resistance in laser welded aluminum to copper dissimilar joints. 2017. [PUMA: myown Welding Laser]
Analytical model for the extent of the heat-affected zone occurring during overlap laser welding of dissimilar materials. Journal of Applied Physics, (122)13:135104, AIP Publishing, 2017. [PUMA: LaserMatterInteraction myown Welding Peer Laser Modeling] URL
Process strategies and heat input in laser welding of metal foams. 2017. [PUMA: LaserMatterInteraction myown Diagnostics Welding Laser]
Beam modulation to reduce electrical resistance in laser welded Al/Cu dissimilar joints. 2017. [PUMA: LaserMatterInteraction myown Welding Laser]
Laser welding of aluminum to copper dissimilar joints with temporal and spatial modulation. 2017. [PUMA: myown welding Laser]