Volgen
Richard Schussnig
Titel
Geciteerd door
Geciteerd door
Jaar
An efficient split-step framework for non-Newtonian incompressible flow problems with consistent pressure boundary conditions
DRQ Pacheco, R Schussnig, TP Fries
Computer Methods in Applied Mechanics and Engineering 382, 113888, 2021
282021
Efficient split-step schemes for fluid–structure interaction involving incompressible generalised Newtonian flows
R Schussnig, DRQ Pacheco, TP Fries
Computers & Structures 260, 106718, 2022
232022
Semi-implicit fluid–structure interaction in biomedical applications
R Schussnig, DRQ Pacheco, M Kaltenbacher, TP Fries
Computer Methods in Applied Mechanics and Engineering 400, 115489, 2022
222022
Robust stabilised finite element solvers for generalised Newtonian fluid flows
R Schussnig, DRQ Pacheco, TP Fries
Journal of Computational Physics 442, 110436, 2021
182021
Higher-order block-structured hex meshing of tubular structures
D Bošnjak, A Pepe, R Schussnig, D Schmalstieg, TP Fries
Engineering with Computers 40 (2), 931-951, 2024
172024
A global residual‐based stabilization for equal‐order finite element approximations of incompressible flows
DRQ Pacheco, R Schussnig, O Steinbach, TP Fries
International Journal for Numerical Methods in Engineering 122 (8), 2075-2094, 2021
132021
IRIS: interactive real-time feedback image segmentation with deep learning
A Pepe, R Schussnig, J Li, C Gsaxner, X Chen, TP Fries, J Egger
Medical Imaging 2020: Biomedical Applications in Molecular, Structural, and …, 2020
122020
Fluid‐structure interaction simulations of aortic dissection
R Schussnig, M Rolf-Pissarczyk, GA Holzapfel, TP Fries
PAMM 20 (1), e202000125, 2021
112021
Consistent pressure Poisson splitting methods for incompressible multi-phase flows: eliminating numerical boundary layers and inf-sup compatibility restrictions
DRQ Pacheco, R Schussnig
Computational Mechanics 70 (5), 977-992, 2022
82022
On the role of tissue mechanics in fluid–structure interaction simulations of patient‐specific aortic dissection
R Schussnig, M Rolf‐Pissarczyk, K Bäumler, TP Fries, GA Holzapfel, ...
International Journal for Numerical Methods in Engineering, e7478, 2024
72024
Multi‐layered tissue models in patient‐specific simulations of aortic dissection
R Schussnig, K Bäumler, TP Fries
PAMM 21 (1), e202100090, 2021
62021
A semi-implicit method for thrombus formation in haemodynamic fluid-structure interaction
R Schussnig, S Dreymann, A Jafarinia, T Hochrainer, TP Fries
8th European Congress on Computational Methods in Applied Sciences and …, 2022
42022
Coupled multiphysics modeling of aortic dissection
R Schussnig, T Fries
42021
Mechanisms of aortic dissection: from pathological changes to experimental and in silico models
M Rolf-Pissarczyk, R Schussnig, TP Fries, D Fleischmann, JA Elefteriades, ...
Progress in Materials Science, 101363, 2024
32024
A semi‐automatic method for block‐structured hexahedral meshing of aortic dissections
D Bošnjak, A Pepe, R Schussnig, J Egger, TP Fries
International Journal for Numerical Methods in Biomedical Engineering 40 (11 …, 2024
22024
Assessment of aortic dissection remodeling with patient-specific fluid-structure interaction models
K Bäumler, M Rolf-Pissarczyk, R Schussnig, TP Fries, G Mistelbauer, ...
IEEE Transactions on Biomedical Engineering, 2024
22024
Generalised Newtonian Fluids in Cardiovascular Fluid–Structure Interaction
R Schussnig, HPS Computing
PhD thesis. Monographic Series TU Graz in Structural Analysis. Graz, 2023
22023
A concept for aortic dissection with fluid‐structure‐crack interaction
R Schussnig, TP Fries
PAMM 19 (1), e201900100, 2019
22019
Fluid-Structure Interaction in Aortic Dissection-A Monolithic Approach
R Schussnig, TP Fries
ECCOMAS Young Investigators Conference, 2019
12019
Matrix-free higher-order finite element methods for hyperelasticity
R Schussnig, N Fehn, P Munch, M Kronbichler
Computer Methods in Applied Mechanics and Engineering 435, 117600, 2025
2025
Het systeem kan de bewerking nu niet uitvoeren. Probeer het later opnieuw.
Artikelen 1–20