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Technische Universität München
Technische Universität München

Foto von Christoph Wunderling

M.Sc. Christoph Wunderling

Technische Universität München

Postadresse

Postal:
Boltzmannstr. 15
85748 Garching b. München

Wissenschaftlicher Mitarbeiter

Abteilung Lasertechnik

Tel.: +49 (89) 289 - 15586
E-Mail: christoph.wunderling@iwb.tum.de

Forschungsschwerpunkte

  • Laserstrukturieren
  • Metall-Kunststoff-Hybridverbindungen

 

Veröffentlichungen

2021

  • Mayr, L.; Tomcic, L.; Kick, M. K.; Wunderling, C.; Zaeh, M. F.: Contacting of cylindrical lithium-ion batteries using short pulse laser beam welding. Proceedings of the Lasers in Manufacturing Conference (LiM), 2021 mehr…
  • Ott, M.; Haberkern, P.; Gruber, M.; Hartmann, C.; Risch, T.; Wunderling, C.; Albers, A.; Volk, W.: Load-specific variant generation of bead cross sections in sheet metal components by unidirectional carbon fibre reinforcement. IOP Conference Series: Materials Science and Engineering 1157 (1), 2021, 012093 mehr…
  • Ott, M; Haberkern, P; Gruber, M; Hartmann, C; Risch, T; Wunderling, C; Albers, A; Volk, W: Load-specific variant generation of bead cross sections in sheet metal components by unidirectional carbon fibre reinforcement. IOP Conference Series: Materials Science and Engineering 1157 (1), 2021, 012093 mehr…
  • Wunderling, C.; Bernauer, C.; Geiger, C.; Goetz, K.; Grabmann, S.; Hille, L.; Hofer, A.; Kick, M. K.; Kriegler, J.; Mayr, L.; Schmoeller, M.; Stadter, C.; Tomcic, L.; Weiss, T.; Zapata, A.; Zaeh, M. F.: Solutions of laser material processing for electric mobility -- evaluation of the Technology Readiness Level. Proceedings of the Lasers in Manufacturing Conference (LiM), 2021 mehr…

2020

  • Wunderling, C.; Mayr, L.; Meyer, S.P.; Zaeh, M.F.: Laser-based surface pre-treatment for metal-plastic hybrids using a new process strategy. Journal of Materials Processing Technology 282, 2020, 116675 mehr…

2019

  • Lugauer, Florian P.; Kandler, Andreas; Meyer, Stefan P.; Wunderling, Christoph; Zaeh, Michael F.: Induction-based joining of titanium with thermoplastics. Production Engineering, 2019 mehr…
  • Meyer, S P; Jaeger, B; Wunderling, C; Zaeh, M F: Friction stir welding of glass fiber-reinforced polyamide 6: Analysis of the tensile strength and fiber length distribution of friction stir welded PA6-GF30. IOP Conference Series: Materials Science and Engineering 480, 2019, 012013 mehr…
  • Meyer, Stefan P.; Wunderling, Christoph; Zaeh, Michael F.: Influence of the laser-based surface modification on the bond strength for friction press joining of aluminum and polyethylene. Production Engineering, 2019 mehr…
  • Meyer, Stefan P.; Wunderling, Christoph; Zaeh, Michael F.: Friction press joining of dissimilar materials: A novel concept to improve the joint strength. PROCEEDINGS OF THE 22ND INTERNATIONAL ESAFORM CONFERENCE ON MATERIAL FORMING: ESAFORM 2019, AIP Publishing, 2019 mehr…
  • Wunderling, Christoph; Mayr, Lukas; Meyer, Stefan P.; Zaeh, Michael F.: Laser-based Surface Pre-treatment for Metal-Plastic Hybrids Using a New Process Strategy. 1st International Conference on Advanced Joining Processes (AJP 2019) 2019Universidado do Porto mehr…
  • Wunderling, Christoph; Scherm, Matthias; Meyer, Stefan; Zaeh, Michael F.: Thermal distortion in surface pretreatment of metal-polymer hybrids using continuous wave laser radiation. High-Power Laser Materials Processing: Applications, Diagnostics, and Systems VIII, SPIE, 2019 mehr…

2018

  • Schwab, Daniel; Schäfer, Eugen; Wunderling, Christoph; Meyer, Stefan: High-speed nested scanner for large-area material processing. LANE 2018, 2018 mehr…
  • Wunderling, C.; Meyer, Stefan Peter; Zaeh, Michael F.: Thermisches Fügen von Metall-Kunststoff-Hybridverbindungen: Potenzialanalyse der Oberflächenvorbehandlung mittels Dauerstrich-Laserstrahlung. wt-online 108 (10), 2018, 708-715 mehr…

2016

  • Keßler, M.; Suenger, S.; Wunderling, C.; Zaeh, M. F.: Simulation of Inertia Friction Welding of Tempering Steel AISI 4140. Mathematical Modeling of Weld Phenomena 11, Verlag der Technischen Universität Graz, 2016 mehr…
  • Wunderling, C.; Keßler, M.; Liebl, S.; Zäh, M. F.: Nachweis der Übertragbarkeit eines Finite-Elemente-Modells des Schwungrad-Rotationsreibschweißens auf weitere Stahlsorten. Schweißen und Schneiden 68 (6), 2016, 338--342 mehr…
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