Publications

Johannes Michel, Jonas Wagner, Frauke Holder, Felix Zaiß, Michael Haas, Christian Hagenlocher, und Thomas Graf. Transverse hot cracking in high-speed laser welding of high-strength aluminum alloys. 2025. [PUMA: Aluminium Cracking MacroMaterialProcessing Simulation Welding myown]

Johannes Michel, Jonas Wagner, Frauke Holder, Felix Zaiß, Michael Haas, Christian Hagenlocher, und Thomas Graf. Transverse hot cracking in high-speed laser welding of high-strength aluminum alloys. 2025. [PUMA: myown Welding Simulation Cracking MacroMaterialProcessing Aluminium]

Rudolf Weber, Christian Freitag, Taras V. Kononenko, Margit Hafner, Volkher Onuseit, Anne Feuer, Andreas Michalowski, Thomas Graf, und Vitali I. Konov. Laser Processing of Carbon Fibre Reinforced Polymers. Phsics Procedia, (12, Part A)Elsevier Ltd., Amsterdam, 2011. [PUMA: MicroMaterialProcessing Drilling Simulation Laser MacroMaterialProcessing Modeling Cutting from:peterberger]

Peter Berger, Helmut Hügel, und Thomas Graf. Understanding Pore Formation in Laser Beam Welding. Phsics Procedia, (12, Part A):0, Elsevier Ltd., Amsterdam, 2011. [PUMA: LaserMatterInteraction Diagnostics Welding Simulation Laser MacroMaterialProcessing Modeling from:peterberger]

Peter Berger, Helmut Hügel, und Thomas Graf. Understanding Pore Formation in Laser Beam Welding. Phsics Procedia, (12, Part A)Elsevier Ltd., Amsterdam, 2011. [PUMA: LaserMatterInteraction Diagnostics Welding Simulation Laser MacroMaterialProcessing Modeling from:peterberger]

Peter Berger, Helmut Hügel, Axel Heß, Rudolf Weber, und Thomas Graf. Understanding of Humping Based on Conservation of Volume Flow. Phsics Procedia, (12, Part A)Elsevier Ltd., Amsterdam, 2011. [PUMA: LaserMatterInteraction Diagnostics Welding Simulation Laser MacroMaterialProcessing Modeling from:peterberger]

Rudolf Weber, Roland Gauch, und Thomas Graf. Influencing the melt pool dynamics with short pulses. Lasers in Manufacturing 2009, AT-Fachverlag GmbH, Stuttgart, 2009. [PUMA: MicroMaterialProcessing Drilling Simulation Laser MacroMaterialProcessing Modeling Cutting from:peterberger]

Armin Strauch, D. Degenhardt, Peter Berger, J. Richardt, H. Tiedke, und Helmut Hügel. Efficient solution of the inverse problem in laser penetration welding using simulations and experiments. Lasers in Manufacturing 2001, 227, AT-Fachverlag GmbH, Stuttgart, 2001. [PUMA: Simulation Laser MacroMaterialProcessing Modeling from:peterberger]

Armin Strauch, D. Degenhardt, Peter Berger, J. Richardt, H. Tiedke, und Helmut Hügel. Efficient solution of the inverse problem in laser penetration welding using simulations and experiments. Lasers in Manufacturing 2001, 227, AT-Fachverlag GmbH, Stuttgart, 2001. [PUMA: Laser MacroMaterialProcessing Modeling Simulation]

Peter Berger, Helmut Hügel, und Thomas Graf. Understanding Pore Formation in Laser Beam Welding. Phsics Procedia, (12, Part A):0, Elsevier Ltd., Amsterdam, 2011. [PUMA: Diagnostics Laser LaserMatterInteraction MacroMaterialProcessing Modeling Simulation Welding]

Rudolf Weber, Christian Freitag, Taras V. Kononenko, Margit Hafner, Volkher Onuseit, Anne Feuer, Andreas Michalowski, Thomas Graf, und Vitali I. Konov. Laser Processing of Carbon Fibre Reinforced Polymers. Phsics Procedia, (12, Part A)Elsevier Ltd., Amsterdam, 2011. [PUMA: Cutting Drilling Laser MacroMaterialProcessing MicroMaterialProcessing Modeling Simulation]

Rudolf Weber, Roland Gauch, und Thomas Graf. Influencing the melt pool dynamics with short pulses. Lasers in Manufacturing 2009, AT-Fachverlag GmbH, Stuttgart, 2009. [PUMA: Cutting Drilling Laser MacroMaterialProcessing MicroMaterialProcessing Modeling Simulation]

Peter Berger, Helmut Hügel, Axel Heß, Rudolf Weber, und Thomas Graf. Understanding of Humping Based on Conservation of Volume Flow. Phsics Procedia, (12, Part A)Elsevier Ltd., Amsterdam, 2011. [PUMA: Diagnostics Laser LaserMatterInteraction MacroMaterialProcessing Modeling Simulation Welding]

Peter Berger, Helmut Hügel, und Thomas Graf. Understanding Pore Formation in Laser Beam Welding. Phsics Procedia, (12, Part A)Elsevier Ltd., Amsterdam, 2011. [PUMA: Diagnostics Laser LaserMatterInteraction MacroMaterialProcessing Modeling Simulation Welding]

N. Tritschler. Experimentelle und theoretische Untersuchung des Kavitationsphänomens beim Laserstrahlschweißen. IFSW18-01Juni 2018. [PUMA: Fetzer,Florian Laser MacroMaterialProcessing Simulation Studienarbeit]

N. Tritschler. Experimentelle und theoretische Untersuchung des Kavitationsphänomens beim Laserstrahlschweißen. IFSW18-01Juni 2018. [PUMA: Studienarbeit Simulation Laser from:florianfetzer Fetzer,Florian MacroMaterialProcessing]

M. Slodycz. OpenFoam-Modell zur Vorhersage der Einschweißtiefe beim Laserstrahlschweißen. IFSW16-14April 2016. [PUMA: Fetzer,Florian Laser MacroMaterialProcessing Simulation Studienarbeit]

M. Slodycz. OpenFoam-Modell zur Vorhersage der Einschweißtiefe beim Laserstrahlschweißen. IFSW16-14April 2016. [PUMA: Studienarbeit Simulation Laser from:florianfetzer Fetzer,Florian MacroMaterialProcessing]