Analysis on the influence of vapor capillary aspect ratio on pore formation in laser beam welding of aluminum. Journal of Materials Processing Technology, (312):117862, Elsevier BV, March 2023. [PUMA: myown welding laser peer from:janniklind from:c_hagenlocher] URL
Analytical Description of the Criterion for the Columnar-To-Equiaxed Transition During Laser Beam Welding of Aluminum Alloys. Metallurgical and Materials Transactions A, (52)7:2720--2731, Jul 1, 2021. [PUMA: myown welding laser peer from:c_hagenlocher] URL
The influence of residual stresses on laser beam welding processes of aluminium sheets. Procedia CIRP, (94):713--717, Elsevier, 2020. [PUMA: myown Welding peersend:unibiblio laser from:c_hagenlocher]
Geometry and stability of the capillary during deep-penetration laser welding of AlMgSi at high feed rates. Optics & Laser Technology, (133):106562, 2021. [PUMA: welding laser peer from:c_hagenlocher] URL
Die Kornstruktur und der Heißrisswiderstand von Laserstrahlschweißnähten in Aluminiumlegierungen. In Thomas Graf (Eds.), Laser in der Materialbearbeitung - Forschungsberichte des IFSW, 150, utzverlag, 2020. [PUMA: from:c_hagenlocher laser myown welding]
High-Speed X-Ray Investigation of Pore Formation during Full Penetration Laser Beam Welding of AA6016 Aluminum Sheets Contaminated with Lubricants. In Jean-Pierre Bergmann (Eds.), Applied Sciences, (10)62020. [PUMA: welding laser peer from:c_hagenlocher] URL
Influence of the solidification path of AlMgSi aluminium alloys on the critical strain rate during remote laser beam welding. Science and Technology of Welding and Joining, (25)2:101-105, Taylor & Francis, 2019. [PUMA: myown laser peer from:c_hagenlocher weldingsend:unibibliosend:unibiblio] URL
Space and time resolved determination of thermomechanical deformation adjacent to the solidification zone during hot crack formation in laser welding.. proceedings of icaleo 2016, 2016. [PUMA: myown laser from:c_hagenlocher weldingsend:unibiblio]
Strain behavior during the initiation process of centerline cracks in laser welding of aluminum alloys. Proc. of LIM 2017, 2017. [PUMA: laser from:c_hagenlocher weldingsend:unibiblio]
PREDICTION OF THE HOT CRACKING SUSCEPTIBILITY OF LASER BEAM WELDS IN ALUMINUM ALLOYS. Proceedings of ICALEO 2019, 2019. [PUMA: myown welding laser from:c_hagenlocher]
Analytical Description of the Influence of the Welding Parameters on the Hot Cracking Susceptibility of Laser Beam Welds in Aluminum Alloys. Metallurgical and Materials Transactions A, (50)11:5174-5180, Nov 1, 2019. [PUMA: myown welding laser peer from:c_hagenlocher] URL
Analytical Description of the Influence of the Welding Parameters on the Hot Cracking Susceptibility of Laser Beam Welds in Aluminum Alloys. Metallurgical and Materials Transactions A, Aug 28, 2019. [PUMA: welding laser peer from:c_hagenlocher] URL
Application of an analytical model to predict the grain structure of laser beam welds in aluminum alloys. Proceedings of LIM 2019, 2019. [PUMA: myown welding laser from:c_hagenlocher]
Influence of the solidification path of AlMgSi aluminium alloys on the critical strain rate during remote laser beam welding. Science and Technology of Welding and Joining, (0)0:1-5, Taylor & Francis, 2019. [PUMA: myown welding laser peer from:c_hagenlocher] URL
Explicit analytical expressions for the influence of welding parameters on the grain structure of laser beam welds in aluminium alloys. Materials & Design, (174):107791, Elsevier, 2019. [PUMA: myown welding laser peer from:c_hagenlocher]
Reduction of the hot cracking susceptibility of laser beam welds in AlMgSi alloys by increasing the number of grain boundaries. Science and Technology of Welding and Joining, (24)4:313-319, Taylor & Francis, 2018. [PUMA: myown welding laser peer from:c_hagenlocher] URL
Optimization of the solidification conditions by means of beam oscillation during laser beam welding of aluminum. Materials & Design, (160):1178-1185, Elsevier, November 2018. [PUMA: myown welding laser peer from:c_hagenlocher] URL
Reduction of the hot cracking susceptibility of laser beam welds in AlMgSi alloys by increasing the number of grain boundaries. Science and Technology of Welding and Joining, (0)0:1-7, Taylor & Francis, 2018. [PUMA: myown welding laser peer from:c_hagenlocher] URL
Active Grain Structure Modulation during Laser Beam Welding. 2018. [PUMA: myown welding laser from:c_hagenlocher]
Modulation of the local grain structure in laser beam welds to inhibit the propagation of centerline hot cracks. Procedia CIRP, (74):434--437, Elsevier, 2018. [PUMA: myown welding laser peer from:c_hagenlocher] URL