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Pfaffenwaldring 9
70569 Stuttgart
Raum: V9.4.155
Sprechstunde
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Fachgebiet
Simulation von Fluiden mit Smoothed Particle Hydrodynamics für die Modellierung des Tiefbohrprozesses.
- SPH-DEM Simulation des Spänetransports beim Ejektor-Tieflochbohren
black: published, green: accepted for publication, orange: submitted for publication
2024
- Rupasinghe N., Gerken J. F., Biermann D., Eberhard P. (2024), Investigation of Chip Evacuation in Ejector Deep Hole Drilling using Mesh-Free Simulation Methods. Proceedings 18th CIRP Conference on Intelligent Computation in
Manufacturing Engineering, CIRP ICME '24. - Gerken J. F., Rupasinghe N., Biermann D., Eberhard P. (2024), Analysis
of chip formation during ejector deep hole drilling for the design of fluid
flow optimized ejector drill heads for sustainable production processes.
Proceedings 18th CIRP Conference on Intelligent Computation in
Manufacturing Engineering, CIRP ICME '24. -
A. Baumann, J. F. Gerken, D. Sollich, N. Rupasinghe, D. Biermann, and P. Eberhard, “Modeling and mitigation of vortex formation in ejector deep hole drilling with smoothed particle hydrodynamics,” Computational Particle Mechanics, Jul. 2024, doi: 10.1007/s40571-024-00789-w.
- 16. July 2024: ITM Statusseminar, Monbachtal; "Simulation of Ejector Deep Hole Drilling Using Smoothed Particles Hydrodynamics Methods"
- Supervision of the lecture Optimization of Mechanical Systems (WT 2024/2025)
- Teaching assistant for seminars in Applied Mechanics IV (ST 2024)
- Teaching assistant for seminars in Applied Mechanics III (WT 2023/2024)
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