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ORCIDMarek Behr
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- affiliation: RWTH Aachen University, Germany
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2020 – today
- 2024
[i24]Nico Dirkes
, Fabian Key, Marek Behr:
Eulerian Formulation of the Tensor-Based Morphology Equations for Strain-Based Blood Damage Modeling. CoRR abs/2402.09319 (2024)- [i23]Veronika Trávníková, Daniel Wolff, Nico Dirkes, Stefanie Elgeti, Eric von Lieres, Marek Behr:
A Model Hierarchy for Predicting the Flow in Stirred Tanks with Physics-Informed Neural Networks. CoRR abs/2403.04576 (2024) - [i22]Patrick Antony, Norbert Hosters, Marek Behr, Anselm Hopf, Frank Krämer, Carsten Weber, Paul Turner:
Multiphase Flow Simulation of Blow-by and Fuel-in-Oil Dilution via the Piston Ring Pack Using the CFD Level-Set Method. CoRR abs/2406.02702 (2024) - [i21]Yudai Suzuki, Shiori Aoki, Fabian Key, Katsuhiro Endo, Yoshiki Matsuda, Shu Tanaka, Marek Behr, Mayu Muramatsu:
An Ising Machine Formulation for Design Updates in Topology Optimization of Flow Channels. CoRR abs/2411.08405 (2024) - 2023
- [j9]Kiran Manjunatha, Nicole Schaaps, Marek Behr, Felix Vogt, Stefanie Reese:
Computational modeling of in-stent restenosis: Pharmacokinetic and pharmacodynamic evaluation. Comput. Biol. Medicine 167: 107686 (2023) - [j8]Jayghosh Subodh Rao, Andreas Püttmann, Siarhei Khirevich, Ulrich Tallarek, Christophe Geuzaine, Marek Behr, Eric von Lieres:
High-definition simulation of packed-bed liquid chromatography. Comput. Chem. Eng. 178: 108355 (2023) - [j7]Stefan Wittschieber, Ajay Rangarajan, Georg May, Marek Behr:
Metric-based anisotropic mesh adaptation for viscoelastic flows. Comput. Math. Appl. 151: 67-79 (2023) - [i20]Kiran Manjunatha, Nicole Schaaps, Marek Behr, Felix Vogt, Stefanie Reese:
Computational modeling of in-stent restenosis: Pharmacokinetic and pharmacodynamic evaluation. CoRR abs/2307.12742 (2023) - 2022
- [j6]Kiran Manjunatha, Marek Behr, Felix Vogt, Stefanie Reese:
A multiphysics modeling approach for in-stent restenosis: Theoretical aspects and finite element implementation. Comput. Biol. Medicine 150: 106166 (2022) - [j5]Michel Make, Thomas Spenke, Norbert Hosters, Marek Behr:
Spline-based space-time finite element approach for fluid-structure interaction problems with a focus on fully enclosed domains. Comput. Math. Appl. 114: 210-224 (2022) - [i19]Michel Make, Thomas Spenke, Norbert Hosters, Marek Behr:
Spline-Based Space-Time Finite Element Approach for Fluid-Structure Interaction Problems With a Focus on Fully Enclosed Domains. CoRR abs/2203.16152 (2022) - [i18]Manuel Brüderlin, Norbert Hosters, Bae-Hong Chen, Alexander Boucke, Josef Ballmann, Marek Behr:
Numerical Prediction and Post-Test Numerical Analysis of the ASDMAD Wind Tunnel Tests in ETW. CoRR abs/2204.01553 (2022) - [i17]Kiran Manjunatha, Marek Behr, Felix Vogt, Stefanie Reese:
A multiphysics modeling approach for in-stent restenosis: Theoretical aspects and finite element implementation. CoRR abs/2204.02301 (2022) - [i16]Max von Danwitz, Igor Voulis, Norbert Hosters, Marek Behr:
Time-Continuous and Time-Discontinuous Space-Time Finite Elements for Advection-Diffusion Problems. CoRR abs/2206.01423 (2022) - [i15]Violeta Karyofylli, Marek Behr:
Simplex space-time meshes in engineering applications with moving domains. CoRR abs/2210.09831 (2022) - 2021
- [i14]Daniel Hilger, Norbert Hosters, Fabian Key, Stefanie Elgeti, Marek Behr:
A novel approach to fluid-structure interaction simulations involving large translation and contact. CoRR abs/2101.05090 (2021) - [i13]Linda Gesenhues, Marek Behr:
Simulating dense granular flow using the μ(I)-rheology within a space-time framework. CoRR abs/2102.04701 (2021) - [i12]Thomas Spenke, Norbert Hosters, Marek Behr:
The Performance Impact of Newton Iterations per Solver Call in Partitioned Fluid-Structure Interaction. CoRR abs/2106.15930 (2021) - [i11]Sebastian Hube, Marek Behr, Stefanie Elgeti, Malte Schön, Jana Sasse, Christian Hopmann:
Numerical Design of Distributive Mixing Elements. CoRR abs/2108.08131 (2021) - [i10]Stefan Wittschieber, Leszek F. Demkowicz, Marek Behr:
Stabilized finite element methods for a fully-implicit logarithmic reformulation of the Oldroyd-B constitutive law. CoRR abs/2112.06829 (2021) - 2020
- [i9]Thomas Spenke, Norbert Hosters, Marek Behr:
A Multi-Vector Interface Quasi-Newton Method with Linear Complexity for Partitioned Fluid-Structure Interaction. CoRR abs/2001.07947 (2020) - [i8]Stefan Haßler, Anna Maria Ranno, Marek Behr:
Finite-Element Formulation for Advection-Reaction Equations with Change of Variable and Discontinuity Capturing. CoRR abs/2003.06915 (2020) - [i7]Jan Helmig, Fabian Key, Marek Behr, Stefanie Elgeti:
Combining Boundary-Conforming Finite Element Meshes on Moving Domains Using a Sliding Mesh Approach. CoRR abs/2004.13984 (2020) - [i6]Kiran Manjunatha, Marek Behr, Felix Vogt, Stefanie Reese:
Finite element modelling of in-stent restenosis. CoRR abs/2012.02959 (2020) - [i5]Max von Danwitz, Patrick Antony, Fabian Key, Norbert Hosters, Marek Behr:
Four-Dimensional Elastically Deformed Simplex Space-Time Meshes for Domains with Time Variant Topology. CoRR abs/2012.14200 (2020)
2010 – 2019
- 2019
- [i4]Jan Helmig, Marek Behr, Stefanie Elgeti:
Boundary-Conforming Finite Element Methods for Twin-Screw Extruders: Unsteady - Temperature-Dependent - Non-Newtonian Simulations. CoRR abs/1901.00725 (2019) - [i3]Violeta Karyofylli, Loic Wendling, Michel Make, Norbert Hosters, Marek Behr:
Simplex space-time meshes in thermally coupled two-phase flow simulations of mold filling. CoRR abs/1903.08710 (2019) - [i2]Violeta Karyofylli, Markus Frings, Stefanie Elgeti, Marek Behr:
Simplex space-time meshes in two-phase flow simulations. CoRR abs/1903.08872 (2019) - 2017
- [i1]Florian Zwicke, Philipp Knechtges, Marek Behr, Stefanie Elgeti:
Automatic implementation of material laws: Jacobian calculation in a finite element code with TAPENADE. CoRR abs/1702.06365 (2017) - 2016
- [j4]Florian Zwicke, Philipp Knechtges, Marek Behr, Stefanie Elgeti:
Automatic implementation of material laws: Jacobian calculation in a finite element code with TAPENADE. Comput. Math. Appl. 72(11): 2808-2822 (2016) - [c4]Lutz Pauli, Marek Behr:
On the Significance of Exposure Time in Computational Blood Damage Estimation. JHPCS 2016: 24-36 - 2012
- [p2]Markus Probst, Michael Lülfesmann, Mike Nicolai, H. Martin Bücker, Marek Behr, Christian H. Bischof:
On the Influence of Constitutive Models on Shape Optimization for Artificial Blood Pumps. Constrained Optimization and Optimal Control for Partial Differential Equations 2012: 611-622 - 2011
- [j3]Yann Queudeville, Todor Ivanov, Uwe Vroomen, Andreas Bührig-Polaczek, Stefanie Elgeti, Markus Probst, Marek Behr, Christian Windeck, Walter Michaeli, Christopher Nussbaum, Christian Hinke:
Design methodology for modular tools. Prod. Eng. 5(4): 351-358 (2011) - 2010
- [p1]Birgit Reinartz, Marek Behr:
Computational Design Study of a 3D Hypersonic Intake for Scramjet Demonstrator Testing. High Performance Computing in Science and Engineering 2010: 429-441
2000 – 2009
- 2008
- [j2]Bernd Hentschel, Irene Tedjo, Markus Probst, Marc Wolter, Marek Behr, Christian H. Bischof, Torsten W. Kuhlen:
Interactive Blood Damage Analysis for Ventricular Assist Devices. IEEE Trans. Vis. Comput. Graph. 14(6): 1515-1522 (2008) - 2007
- [c3]Marek Behr, Mike Nicolai, Markus Probst:
Efficient Parallel Simulations in Support of Medical Device Design. PARCO 2007: 19-26
1990 – 1999
- 1999
- [c2]Daniel M. Pressel, Marek Behr, Steven Thompson:
The True Limitations of Shared Memory Programming. PDPTA 1999: 2048-2054 - 1996
- [c1]Tayfun Tezduyar, Shahrouz Aliabadi, Marek Behr, Andrew Johnson, V. Kalro, M. Litke:
High performance computing in flow simulations. EUROSIM 1996: 27-34 - 1993
- [j1]Tayfun Tezduyar, Shahrouz Aliabadi, Marek Behr, Andrew Johnson, Sanjay Mittal:
Parallel Finite-Element Computation of 3D Flows. Computer 26(10): 27-36 (1993)
Coauthor Index
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