Software, Materialien, Gallerie

github: tommeswick
gitlab: thomas.wick.2014


♦Forschungssoftwareentwicklung:

12) D. Khimin, M.C. Steinbach, T. Wick; pff-oc: A space-time phase-field fracture optimal control framework, Software Impacts (SIMPA), Dec 2024, v1.0.0 github
11) J.P. Thiele, T. Wick; PU-DWR diffusion code, v1.0.0, Feb 2024 github
zenodo
Paper
10) D. Jodlbauer, U. Langer, T. Wick, W. Zulehner; Matrix-Free Monolithic Multigrid Methods for Stokes and Generalized Stokes Problems - Reproduction Code (Version v1), Feb 2024 gitlab
zenodo
Paper
9) H. von Wahl, T. Wick; A high-precision framework for phase-field fracture interface reconstructions with application to Stokes fluid-filled fracture surrounded by an elastic medium - Reproduction code in Netgen/NGSolve, December 2022 zenodo Paper
8) T. Wick; Goal-oriented error control with the dual-weighted residual method for the Poisson problem in deal.II, August 2022, part of B. Endtmayer, U. Langer, T. Richter, A. Schafelner, T. Wick; Chapter Two - A Posteriori Single- and Multi-Goal Error Control and Adaptivity for Partial Differential Equations. In AAMS Vol 59, Part II, Elsevier, Vol. 59, 2024, pp. 19 - 108 github Chapter
7) N. Noii, A. Khodadadian, J. Ulloa, F. Aldakheel, T. Wick, S. Francois, P. Wriggers; Bayesian inversion with open-source codes for various one-dimensional model problems in computational mechanics, Apr 2022 zenodo Paper
6) T. Wick; Ziel-orientierte Fehlerschaetzung mit dual-gewichteten Residuen fuer Fluid-Struktur-Interaktion in deal.II, Mai 2021 github Paper
5) S. Frei, T. Richter, T. Wick; An implementation of a locally modified finite element method for interface problems in deal.II
zenodo, October 2018 / March 2021
github
zenodo
CO
Paper
4) S. Lee, M.F. Wheeler, T. Wick; IPACS: integrated phase field advanced crack simulator, based on deal.II
started in 2016 at ICES, UT Austin, USA
Manual Paper
3) T. Heister, T. Wick; pfm-cracks: Phase-field fracture propagation in deal.II mit primal-dual active set Loeser, parallelem Rechnen und adaptiver Gitterverfeinerung
gestarted in 2015 at ICES, UT Austin, USA
github
CO
Paper
2) T. Wick; deal.II step-like tutorial Progamm: Numerische Loesung von Fluid-Struktur fuer 2D Probleme
started in 2011 at Heidelberg University, Germany
github Paper
1) T. Wick, W. Wollner (current maintainers); DOpElib: Optimization with partial differential equations
started in 2009 at Heidelberg University, Germany
github
Web
Paper



♦Excellence Cluster PhoenixD: OPTISIM




♦Software: Fluid-Struktur-Interaktion in deal.II:




♦Software: zusätzliche Programme für DOpElib:




♦ At ICES (UT Austin), TACC, Sep 2014

Thomas Wick at TACC


♦Exzellenzcluster PhoenixD retreat, Schneverdingen 2021

Sep 7-9, 2021 Poster efficient Maxwell solvers (*.pdf)



♦Sommeruni Hannover 2018 (girls only)

Sommeruni 2018 Vortrag spannende Risse



♦Lange Nacht der Forschung in Linz (Austria)

Apr 22, 2016 Poster spannende Risse (*.pdf)



♦Error control and adaptivity

T. Richter, T. Wick; JCAM, 2015,
T. Heister, M.F. Wheeler, T. Wick, CMAME, 2015
T. Wick; Comp. Mech., 2016






♦Fluid-Struktur-Interaktion (FSI 2)

T. Wick; Fluid-Structure Interactions using Different Mesh Motion Techniques,
Comput. Struct. 89 (2011), pp. 1456-1467






♦Fully-Eulerian Fluid-Struktur-Interaktion (FSI 2)

T. Wick; Fully Eulerian Fluid-Structure Interaction for Time-Dependent Problems,
Comp. Meth. Appl. Mech. Engrg. 255 (2013), pp. 14-26






♦Flattern und Kontakt in Fluid-Struktur-Interaktion

T. Wick; Flapping and Contact FSI Computations with the Fluid-Solid Interface-Tracking/Interface-Capturing Technique and Mesh Adaptivity,
Computational Mechanics, Vol. 53 (1), 2014, pp. 29-43






♦Fracture propagation with joining and branching and local mesh adaptivity

A. Mikelic, M. F. Wheeler, T. Wick; A quasistatic phase field approach to pressurized fractures,
Nonlinearity, Vol. 28(5), 2015, pp. 1371-1399






♦Brittle and ductile fracture/damage evolution in screws

D. Wick, T. Wick, R.J. Hellmig, H.-J. Christ; Numerical simulations of crack propagation in screws with phase-field modeling,
Comput. Mater. Sci., Vol. 109 (2015), pp. 367-379



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