Mathis Fricke
Mathis Fricke
Research Group Leader, Mathematical Modeling and Analysis, TU Darmstadt
Verified email at - Homepage
Cited by
Cited by
A kinematic evolution equation for the dynamic contact angle and some consequences
M Fricke, M Köhne, D Bothe
Physica D: Nonlinear Phenomena 394, 26-43, 2019
A comparative study of transient capillary rise using direct numerical simulations
D Gründing, M Smuda, T Antritter, M Fricke, D Rettenmaier, F Kummer, ...
Applied Mathematical Modelling 86, 142-165, 2020
Breakup Dynamics of Capillary Bridges on Hydrophobic Stripes
M Hartmann, M Fricke, L Weimar, D Gründing, T Marić, D Bothe, S Hardt
International Journal of Multiphase Flow, 2021
On the kinematics of contact line motion
M Fricke, M Köhne, D Bothe
PAMM 18 (1), e201800451, 2018
Capillary Rise‐Jurin's Height vs Spherical Cap
D Gründing, M Fricke, D Bothe
PAMM 19 (1), e201900336, 2019
Contact line advection using the geometrical Volume-of-Fluid method
M Fricke, T Marić, D Bothe
Journal of Computational Physics 407, 109221, 2020
Mathematical modeling and Volume-of-Fluid based simulation of dynamic wetting
M Fricke
Technische Universität Darmstadt, 2021
Contact line advection using the level set method
M Fricke, T Marić, D Bothe
PAMM 19 (1), e201900476, 2019
An analytical study of capillary rise dynamics: Critical conditions and hidden oscillations
M Fricke, EA Ouro-Koura, S Raju, R von Klitzing, J De Coninck, D Bothe
Physica D: Nonlinear Phenomena, 133895, 2023
Capillary Rise--A Computational Benchmark for Wetting Processes
D Gründing, M Smuda, T Antritter, M Fricke, D Rettenmaier, F Kummer, ...
arXiv preprint arXiv:1907.05054, 2019
Computing hydrodynamic eigenmodes of channel flow with slip—A highly accurate algorithm
S Raju, D Gründing, T Marić, D Bothe, M Fricke
The Canadian Journal of Chemical Engineering 100 (12), 3531-3547, 2022
Boundary conditions for dynamic wetting-A mathematical analysis
M Fricke, D Bothe
The European Physical Journal Special Topics 229 (10), 1849-1865, 2020
Numerical wetting benchmarks--advancing the plicRDF-isoAdvector unstructured Volume-of-Fluid (VOF) method
MH Asghar, M Fricke, D Bothe, T Maric
arXiv preprint arXiv:2302.02629, 2023
Experimental study of dynamic wetting behavior through curved microchannels with automated image analysis-Data
H Zhang, A Lippert, R Leonhardt, T Tolle, L Nagel, M Fricke, T Maric
Bridging the scales in capillary rise dynamics with complexity-reduced models
M Fricke, S Raju, EA Ouro-Koura, O Kozymka, J De Coninck, Z Tukovic, ...
arXiv preprint arXiv:2311.11947, 2023
A locally signed-distance preserving level set method (SDPLS) for moving interfaces
M Fricke, T Marić, A Vučković, I Roisman, D Bothe
arXiv preprint arXiv:2208.01269, 2022
A geometry-based model for spreading drops applied to drops on a silicon wafer and a swellable polymer brush film
M Fricke, B Fickel, M Hartmann, D Gründing, M Biesalski, D Bothe
arXiv preprint arXiv:2003.04914, 2020
Contact Line Advection using the geometrical Volume-of-Fluid Method: Data and FORTRAN-Implementations
M Fricke, T Maric, D Bothe
Contact Line Advection using the Level Set Method: Data and C++ Implementations
M Fricke, T Maric, D Bothe, A Vuckovic
Scale-bridging within a complex model hierarchy for investigation of a metal-fueled circular energy economy by use of Bayesian model calibration with model error quantification
L Gossel, E Corbean, S Dübal, P Brand, M Fricke, H Nicolai, C Hasse, ...
arXiv preprint arXiv:2404.13092, 2024
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