Publications

Michael Haas, Felix Zaiß, Johannes Wahl, Christoph Spurk, Alexander Olowinsky, Felix Beckmann, Julian Moosmann, Christian Hagenlocher, and Andreas Michalowski. The influence of the capillary shape on process emissions. 2024. [PUMA: myown Welding ProcessMonitoring Capillary Laser X-ray Vapor]

Michael Haas, Felix Zaiß, Johannes Wahl, Christoph Spurk, Alexander Olowinsky, Felix Beckmann, Julian Moosmann, Christian Hagenlocher, and Andreas Michalowski. The influence of the capillary shape on process emissions. 2024. [PUMA: myown Welding ProcessMonitoring Capillary Laser X-ray Vapor]

Michael Sawannia, Stefan Jakobs, Stefan Gach, Simon Olschok, Rudolf Weber, and Thomas Graf. IN SITU INVESTIGATION OF THE CAPILLARY DYNAMICS IN ELECTRON BEAM WELDING USING THE POLARIZED THERMAL PROCESS EMISSION. 2022. [PUMA: myown ElectronBeam Welding from:michaelsawannia Capillary Goniometer]

Meiko Boley. Bestimmung und Regelung der Kapillar- und Nahttiefe beim Laserstrahlschweißen. In Thomas Graf (Eds.), Laser in der Materialbearbeitung - Forschungsberichte des IFSW, 156, utzverlag, München, 2022. [PUMA: Capillary Soldering from:mleyzner]

Daniel Sollich, Eveline-Nicole Reinheimer, Jonas Wagner, Peter Berger, and Peter Eberhard. An improved recoil pressure boundary condition for the simulation of deep penetration laser beam welding using the SPH method. In Abbas Khayyer, Damien Violeau, Songdong Shao, and Danilo Durante (Eds.), European Journal of Mechanics - B/Fluids, Elsevier BV, June 2022. [PUMA: myown Ray-Tracing Recoil Deep SPH Pressure Beam Dynamics Penetration Capillary Laser from:e.reinheimer BeamWelding Melt Formation] URL

Eveline Reinheimer, Rudolf Weber, and Thomas Graf. Influence of high feed rates during laser beam welding on the capillary geometry and the resulting weld seam quality. Proc. of SPIE Vol, (11994):1199404--1, 2022. [PUMA: capillary from:e.reinheimer highfeedrates laserwelding myown;]

Eveline N. Reinheimer, Hummel Marc, Alexander Olowinsky, Rudolf Weber, and Thomas Graf. High-speed synchrotron x-ray imaging of the formation of wedge-shaped capillaries during laser-beam welding at high feed rates. Lasers in Manufacturing Conference 2021, 2021. [PUMA: myown capillary from:e.reinheimer highfeedrates weld-pool]

Florian Fetzer. Analyse der Geometrie und Stabilität der Kapillare beim Laserstrahltiefschweißen mittels reduzierter Modelle. In Thomas Graf (Eds.), Laser in der Materialbearbeitung - Forschungsberichte des IFSW, 169, utzverlag, München, 2020. [PUMA: Capillary Laser Welding from:pascalweinert]

Yuan Qin, Andreas Michalowski, Rudolf Weber, Sen Yang, Thomas Graf, and Xiaowu Ni. Comparison between ray-tracing and physical optics for the computation of light absorption in capillaries -- the influence of diffraction and interference. Opt. Express, (20)24:26606--26617, OSA, November 2012. [PUMA: Absorption Capillary Diffraction Interference Laser RayTracing from:peterberger peer] URL

Michael Jarwitz, Jannik Lind, Rudolf Weber, and Thomas Graf. 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 from:michaeljarwitz]

Michael Jarwitz, Jannik Lind, Rudolf Weber, Thomas Graf, Nicolai Speker, and Patrick Haug. 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, October 2018. [PUMA: LaserMatterInteraction myown Diagnostics Welding Capillary Laser BeamShaping MacroMaterialProcessing Steelsend:unibiblio from:michaeljarwitz] URL

Michael Jarwitz, Jannik Lind, Rudolf Weber, Thomas Graf, Nicolai Speker, and Patrick Haug. 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 from:michaeljarwitz]

Michael Jarwitz, Jannik Lind, Rudolf Weber, and Thomas Graf. X-Ray investigations of the capillary shape and melt flows during laser welding of steel using superimposed intensity distributions. 2018. [PUMA: myown Diagnostics Welding BeamShaping Steel LaserMatterInteraction Capillary Laser MacroMaterialProcessing from:michaeljarwitz]

M. Haug. Charakterisierung der Kapillarfront durch Nutzung der polarisierten Wärmestrahlung. IFSW12-06March 2012. [PUMA: Bachelorarbeit Capillary Laser from:florianfetzer Weberpals,Jan-Philipp ProcessDevelopment]

Gerald Heckeler. Berechnung dreidimensionaler Schmelzbadströmungen für vorzubeugende Kapillarformen und Ermittlung von Formen, die einen stabilen Laserschweißprozeß erwarten lassen. IFSW96-37November 1996. [PUMA: NumericalMathematics Welding Capillary Laser from:florianfetzer Kern,Markus ProcessDevelopment Diplomarbeit]

S. Hamernik. 3D-Oberflächenrekonstruktion der Kapillargeometrie beim Laserschweißen. IFSW11-30November 2011. [PUMA: Welding Bachelorarbeit Capillary Laser from:florianfetzer Weberpals,Jan-Philipp ProcessDevelopment]

Krüger P.. Grundlagenverständnis zum Einfluss der Fokuslage auf die Geometrie und das Stabilitätsverhalten der Dampfkapillare. IFSW12-02January 2012. [PUMA: Studienarbeit Capillary Laser from:florianfetzer Weberpals,Jan-Philipp ProcessDevelopment]