This image shows Daniel Sollich

Daniel Sollich

M.Sc.

(2019 - 2024)
Institute of Engineering and Computational Mechanics

Contact

Subject

Modeling of Laser Keyhole Welding with Smoothed Particle Hydrodynamics

black: published, green: accepted for publication, orange: submitted for publication

  • Sollich, D.; Reinheimer, R.N.; Wagner, J.; Berger, P.; Eberhard, P.: An Improved Recoil Pressure Boundary Condition for the Simulation of Deep Penetration Laser Beam Welding Using the SPH Method.
    European Journal of Mechanics - B/Fluids, Vol. 96, pp. 26-38, 2022. DOI: 10.1016/j.euromechflu.2022.06.001
  • November 2, 2023: 26th SPH Super Group Meeting (SPH-SGM); "Simulation of Laser Beam Welding Using SPH"
  • July 17, 2023: ITM Status Seminar, Schmerlenbach; "Towards Laser Beam Welding Without Process Instabilities Using Efficient SPH Simulations"
  • November 23, 2022: Smoothed Particle Hydrodynamics Workshop of the GAMM-Junior Group, University of Stuttgart; "Modeling of Laser Beam Welding Using SPH"
  • July 26, 2022: ITM Status Seminar, Schmerlenbach; "Towards the Modeling of Pore Formation During Deep Penetration Laser Beam Welding"
  • November 25, 2021: ITM Status Seminar, Monbachtal; "Modeling of Evaporation and Scattering in the Capillary During Laser Beam Welding"
  • May 25, 2021: International Symposium on Co-Simulation and Solver Coupling in Dynamics (COSIM 2021); "Co-Simulation of Deep Penetration Laser Beam Welding by Coupling Adaptive Smoothed Particle Hydrodynamics with a Ray-Tracing Approach"
  • June 30, 2020: ITM Status Seminar (virtual); "Simulation of Deep Penetration Laser Welding Using Adaptive SPH"
  • June 4, 2019: ITM Status Seminar, Bad Herrenalb; "Von Zuverlässigkeitsanalysen am CERN zur Modellierung des Laser-Tiefschweißprozesses"
  • Development of a Discretization-Error-Based Adaptivity Criterion for the Meshless Numerical Simulation Method Smoothed Particle Hydrodynamics, Master Thesis.
    Institute of Engineering and Computational Mechanics, University of Stuttgart, 2021.
    In co-supervision with Dr.-Ing. Fabian Spreng.
  • Numerical Investigation for the Application and Evaluation of Kernel Functions for the Smoothed Particle Hydrodynamics Method, Bachelor Thesis.
    Institute of Engineering and Computational Mechanics, University of Stuttgart, 2021.
    In co-supervision with Andreas Baumann, M.Sc.
  • Implementation of a High-Density Multiphase Flow Model with the  Smoothed Particle Hydrodynamics Method, Master Thesis.
    Institute of Engineering and Computational Mechanics, University of Stuttgart, 2021.
  • seminar in Applied Mechanics II (ST 2019)
To the top of the page