Britta Nestler
Britta Nestler
Professor für Mikrostruktursimulation in der Werkstofftechnik, Karlsruher Institut für Technologie
Bestätigte E-Mail-Adresse bei - Startseite
Zitiert von
Zitiert von
A phase field concept for multiphase systems
I Steinbach, F Pezzolla, B Nestler, M Seeßelberg, R Prieler, GJ Schmitz, ...
Physica D: Nonlinear Phenomena 94 (3), 135-147, 1996
The multiphase-field model with an integrated concept for modelling solute diffusion
J Tiaden, B Nestler, HJ Diepers, I Steinbach
Physica D: Nonlinear Phenomena 115 (1-2), 73-86, 1998
Multicomponent alloy solidification: phase-field modeling and simulations
B Nestler, H Garcke, B Stinner
Physical Review E 71 (4), 041609, 2005
A multiphase field concept: numerical simulations of moving phase boundaries and multiple junctions
H Garcke, B Nestler, B Stoth
SIAM Journal on Applied Mathematics 60 (1), 295-315, 1999
A multi-phase-field model of eutectic and peritectic alloys: numerical simulation of growth structures
B Nestler, AA Wheeler
Physica D: Nonlinear Phenomena 138 (1-2), 114-133, 2000
Computational materials engineering: an introduction to microstructure evolution
KGF Janssens, D Raabe, E Kozeschnik, MA Miodownik, B Nestler
Academic Press, 2010
Grand-potential formulation for multicomponent phase transformations combined with thin-interface asymptotics of the double-obstacle potential
A Choudhury, B Nestler
Physical Review E 85 (2), 021602, 2012
On anisotropic order parameter models for multi-phase systems and their sharp interface limits
H Garcke, B Nestler, B Stoth
Physica D: Nonlinear Phenomena 115 (1-2), 87-108, 1998
A diffuse interface model for alloys with multiple components and phases
B Stinner, B Nestler, H Garcke
SIAM Journal on Applied Mathematics 64 (3), 775-799, 2004
Phase-field model for solidification of a monotectic alloy with convection
B Nestler, AA Wheeler, L Ratke, C Stöcker
Physica D: Nonlinear Phenomena 141 (1-2), 133-154, 2000
Phase-field modeling of multi-component systems
B Nestler, A Choudhury
Current opinion in solid state and Materials Science 15 (3), 93-105, 2011
Large scale phase-field simulations of directional ternary eutectic solidification
J Hötzer, M Jainta, P Steinmetz, B Nestler, A Dennstedt, A Genau, ...
Acta Materialia 93, 194-204, 2015
Comparative study of two phase-field models for grain growth
N Moelans, F Wendler, B Nestler
Computational Materials Science 46 (2), 479-490, 2009
Phase field modeling of fracture and stress-induced phase transitions
R Spatschek, C Müller-Gugenberger, E Brener, B Nestler
Physical Review E 75 (6), 066111, 2007
Extraction of reduced-order process-structure linkages from phase-field simulations
YC Yabansu, P Steinmetz, J Hötzer, SR Kalidindi, B Nestler
Acta Materialia 124, 182-194, 2017
The parallel multi-physics phase-field framework Pace3D
J Hötzer, A Reiter, H Hierl, P Steinmetz, M Selzer, B Nestler
Journal of computational science 26, 1-12, 2018
Crystal growth of pure substances: Phase-field simulations in comparison with analytical and experimental results
B Nestler, D Danilov, P Galenko
Journal of Computational Physics 207 (1), 221-239, 2005
Phase-field simulation of solid state sintering
J Hötzer, M Seiz, M Kellner, W Rheinheimer, B Nestler
Acta Materialia 164, 184-195, 2019
3D printing of inherently nanoporous polymers via polymerization-induced phase separation
Z Dong, H Cui, H Zhang, F Wang, X Zhan, F Mayer, B Nestler, M Wegener, ...
Nature communications 12 (1), 247, 2021
Comparison of phase-field and cellular automaton models for dendritic solidification in Al–Cu alloy
A Choudhury, K Reuther, E Wesner, A August, B Nestler, M Rettenmayr
Computational Materials Science 55, 263-268, 2012
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