Dr.-Ing. Daniel Schneider

  • Straße am Forum 7
    76131 Karlsruhe

Forschung

Beschreibung

Die Forschungsgruppe „Multiphysics Materials Modelling: Microstructure-Mechanics“ untersucht die Wechselwirkungen zwischen mikrostrukturellen und mechanischen Einflussgrößen auf der mesoskopische Längenskala von Materialien. Einen entscheidenden Einfluss auf die physikalischen Eigenschaften von Materialien haben sowohl die Evolution der Körner und Domänen, als auch die daraus resultierende heterogene Mikrostruktur. Daher ist das Verständnis dieser Mechanismen und möglicher Defekte unentbehrlich zur virtuellen Entwicklung von Materialien (Virtual-Material-Design). Unter der Einbindung vornehmlich mechanischer, aber auch chemischer, thermischer und elektromagnetischer treibender Kräfte werden die physikalischen Prozesse an den Grenzflächen untersucht. Dies geschieht mittels der Phasenfeldmethode, welche mit numerischen Algorithmen gekoppelt ist. So können die Prozessparameter optimiert und somit die Produktionskosten gesenkt, effektive Materialeigenschaften optimiert oder neue Materialien entwickelt werden. Aktuelle Forschungsfragen beziehen sich auf den Rekristallisationsprozess, Fest-Fest-Phasenumwandlungsprozesse sowie auf die elektro-chemische Prozesse und die Rissausbreitung. Als Materialien werden Metalle, Faseverbundwerkstoffe, Lithium-Ionen-Batterien bzw. Piezzo-Kristalle betrachtet.

 

Phase-field models and numerical methods to describe phase transformation processes including mechanical driving forces

Model extensions:

  • Phase-field elasticity description based on mechanical jump conditions for diffuse transition regions
  • Elasto-plastic multiphase-field approach

Simulations:

  • Crack propagation in brittle and ductile materials
  • Influence of microstructure on mechanical properties
  • Recrystallization processes
  • Displacive phase transformation processes

 

 

 

     

    

 

 

Publikationen


Chemo-mechanical benchmark for phase-field approaches
Kannenberg, T.; Prahs, A.; Svendsen, B.; Nestler, B.; Schneider, D.
2025. Modelling and Simulation in Materials Science and Engineering, 33 (1), 015004. doi:10.1088/1361-651X/ad90f7
Phase-Field Simulation of Abnormal/Normal Recrystallization Kinetics in Ultrafine-Grained Aluminum Processed by High-Pressure Torsion Extrusion
Abramova, O.; Nugmanov, D.; Schneider, D.; Prahs, A.; Mittnacht, T.; Ivanisenko, J.; Baretzky, B.; Nestler, B.
2023. Elsevier. doi:10.2139/ssrn.4617296
Triple junction benchmark for multiphase-field models combining capillary and bulk driving forces
Hoffrogge, P. W.; Daubner, S.; Schneider, D.; Nestler, B.; Zhou, B.; Eiken, J.
2024. Modelling and Simulation in Materials Science and Engineering
Crystallization and crystal morphology of polymers: A multiphase-field study
Afrasiabian, N.; Elmoghazy, A.; Blarr, J.; Scheuring, B.; Prahs, A.; Schneider, D.; Liebig, W. V.; Weidenmann, K. A.; Denniston, C.; Nestler, B.
2024. Journal of Thermoplastic Composite Materials. doi:10.1177/08927057241296472
Multiphase-field modeling of domain structure evolution in ferroelectric thin film
Fan, L.; Reder, M.; Schneider, D.; Hinterstein, M.; Nestler, B.
2025. Journal of the European Ceramic Society, 45 (1), Art.-Nr.: 116875. doi:10.1016/j.jeurceramsoc.2024.116875
Surface energies control the anisotropic growth of β -Ni(OH) nanoparticles in stirred reactors
Streichhan, N.; Goonetilleke, D.; Li, H.; Soleymanibrojeni, M.; Hoffrogge, P. W.; Schneider, D.; Nestler, B.; Wenzel, W.
2024. Surfaces and Interfaces, 51, 104736. doi:10.1016/j.surfin.2024.104736
Modeling of martensitic phase transformation accounting for inertia effects
Liu, X.; Schneider, D.; Reder, M.; Hoffrogge, P. W.; Nestler, B.
2024. International Journal of Mechanical Sciences, 278, Art.-Nr.: 109443. doi:10.1016/j.ijmecsci.2024.109443
Multiphase transformation and mechanical analysis of polycrystalline Cu Li Sn nanoparticle during lithiation via phase diagram-guided phase-field approach
Huang, Q.; Daubner, S.; Schneider, D.; Zheng, X.; Liu, S.; Du, Y.; Nestler, B.
2024. Electrochimica Acta, 495, Art.-Nr.: 144471. doi:10.1016/j.electacta.2024.144471
Combined study of phase transitions in the P2-type NaNiMnO cathode material: experimental, ab-initio and multiphase-field results
Daubner, S.; Dillenz, M.; Pfeiffer, L. F.; Gauckler, C.; Rosin, M.; Burgard, N.; Martin, J.; Axmann, P.; Sotoudeh, M.; Groß, A.; Schneider, D.; Nestler, B.
2024. npj Computational Materials, 10 (1), Art.-Nr.: 75. doi:10.1038/s41524-024-01258-x
Flow‐Induced Microfluidic Assembly for Advanced Biocatalysis Materials
Lemke, P.; Schneider, L.; Kunz, W.; Rieck, A. L.; Jäger, P. S.; Bruckmann, A.; Nestler, B.; Rabe, K. S.; Niemeyer, C. M.
2024. Advanced Functional Materials, 34 (18), Art.-Nr.: 2313944. doi:10.1002/adfm.202313944
The effect of subgrain mobility on recrystallization kinetics: phase-field simulation study
Abramova, O.; Prahs, A.; Schneider, D.; Nestler, B.
2023. 8th International Conference on Recrystallization and Grain Growth, Chongqing, 15th - 19th May 2023, Art.-Nr.: 012032, Institute of Physics Publishing Ltd (IOP Publishing Ltd). doi:10.1088/1742-6596/2635/1/012032
Microstructure evolution accounting for crystal plasticity in the context of the multiphase-field method
Kannenberg, T.; Schöller, L.; Prahs, A.; Schneider, D.; Nestler, B.
2024. Computational Mechanics, 74, 67–84. doi:10.1007/s00466-023-02423-7
The effect of compression shock heating in collision welding
Ganzenmüller, G. C.; Hütter, S.; Reder, M.; Prahs, A.; Schneider, D.; Nestler, B.; Halle, T.; Hiermaier, S.
2023. arxiv
Phase-field simulation for voltage profile of LixSn nanoparticle during lithiation/delithiation
Huang, Q.; Daubner, S.; Zhang, S.; Schneider, D.; Nestler, B.; Mao, H.; Liu, S.; Du, Y.
2023. Computational Materials Science, 220, 112047
Realization of adaptive mesh refinement for phase-field model of thermal fracture within the FEniCS framework
Hirshikesh; Schneider, D.; Nestler, B.
2023. Engineering Fracture Mechanics, 293, Art.-Nr.: 109676. doi:10.1016/j.engfracmech.2023.109676
A multiphase-field approach to small strain crystal plasticity accounting for balance equations on singular surfaces
Prahs, A.; Schöller, L.; Schwab, F. K.; Schneider, D.; Böhlke, T.; Nestler, B.
2024. Computational Mechanics, 73, 773–794. doi:10.1007/s00466-023-02389-6
Investigation of microstructure evolution accounting for crystal plasticity in the multiphase‐field method
Kannenberg, T.; Schöller, L.; Prahs, A.; Schneider, D.; Nestler, B.
2023. PAMM, 23 (3), Art.-Nr.: e202300138. doi:10.1002/pamm.202300138
Phase‐Field Simulations of Epitaxial Crystal Growth in Open Fractures With Reactive Lateral Flow
Späth, M.; Selzer, M.; Busch, B.; Schneider, D.; Hilgers, C.; Urai, J. L.; Nestler, B.
2023. Water Resources Research, 59 (8), Nr.: e2023WR034605. doi:10.1029/2023WR034605
Modeling Anisotropic Transport in Polycrystalline Battery Materials
Daubner, S.; Weichel, M.; Hoffrogge, P. W.; Schneider, D.; Nestler, B.
2023. Batteries, 9 (6), Art.Nr.: 310. doi:10.3390/batteries9060310
Qualitative modeling of etch-pit formation (dissolution) on the K-feldspar surface through phase-field approach
Kumar, A.; Prajapati, N.; Späth, M.; Schneider, D.; Busch, B.; Hilgers, C.; Nestler, B.
2022, Juli. 15th / 8. World Congress on Computational Mechanics & Asian Pacific Conference on Computational Mechanics (WCCM-APCOM 2022), Online, 31. Juli–5. August 2022
Qualitative Dissolution Modeling of Etch‐Pit Formation on the K‐Feldspar Surface Through Phase‐Field Approach
Kumar, A.; Prajapati, N.; Späth, M.; Busch, B.; Schneider, D.; Hilgers, C.; Nestler, B.
2023. Journal of Geophysical Research: Solid Earth, 128 (4), e2022JB025749. doi:10.1029/2022JB025749
Performance estimation by multiphase-field simulations and transmission-line modeling of nickel coarsening in FIB-SEM reconstructed Ni-YSZ SOFC anodes I: Influence of wetting angle
Hoffrogge, P. W.; Schneider, D.; Wankmüller, F.; Meffert, M.; Gerthsen, D.; Weber, A.; Nestler, B.; Wieler, M.
2023. Journal of Power Sources, 570, Art.-Nr.: 233031. doi:10.1016/j.jpowsour.2023.233031
Phase-field modeling of crack propagation based on multi-crack order parameters considering mechanical jump conditions
Schöller, L.; Schneider, D.; Prahs, A.; Nestler, B.
2023. Proceedings in applied mathematics and mechanics, 22 (1, SI), Art.-Nr.: e202200039. doi:10.1002/pamm.202200039
Phase-field simulation for voltage profile of Li Sn nanoparticle during lithiation/delithiation
Huang, Q.; Daubner, S.; Zhang, S.; Schneider, D.; Nestler, B.; Mao, H.; Liu, S.; Du, Y.
2023. Computational Materials Science, 220, Art.-Nr.: 112047. doi:10.1016/j.commatsci.2023.112047
Phase-field modelling of mechanical wave propagation in polycrystalline materials: Validation study
Liu, X.; Schneider, D.; Nestler, B.
2023. International Journal of Solids and Structures, 262-263, Art.-Nr.: 112053. doi:10.1016/j.ijsolstr.2022.112053
Multiphase-field modelling of anisotropic elasticity at finite deformation in Eulerian space
Daubner, S.; Reder, M.; Prajapati, N.; Schneider, D.; Nestler, B.
2023. Journal of Computational Science, 66, Art.-Nr.: 101930. doi:10.1016/j.jocs.2022.101930
Modeling of temperature- and strain-driven intermetallic compound evolution in an Al–Mg system via a multiphase-field approach with application to refill friction stir spot welding
Raza, S. H.; Mittnacht, T.; Diyoke, G.; Schneider, D.; Nestler, B.; Klusemann, B.
2022. Journal of the Mechanics and Physics of Solids, 169, Art.-Nr.: 105059. doi:10.1016/j.jmps.2022.105059
Phase-field modeling of crack propagation in heterogeneous materials with multiple crack order parameters
Schöller, L.; Schneider, D.; Herrmann, C.; Prahs, A.; Nestler, B.
2022. Computer Methods in Applied Mechanics and Engineering, 395, Art.-Nr.: 114965. doi:10.1016/j.cma.2022.114965
A phase‐field based model for coupling two‐phase flow with the motion of immersed rigid bodies
Reder, M.; Hoffrogge, P. W.; Schneider, D.; Nestler, B.
2022. International Journal for Numerical Methods in Engineering, 123 (16), 3757–3780. doi:10.1002/nme.6988
Multigrain phase-field simulation in ferroelectrics with phase coexistences: An improved phase-field model
Fan, L.; Werner, W.; Subotić, S.; Schneider, D.; Hinterstein, M.; Nestler, B.
2022. Computational Materials Science, 203, Art.-Nr.: 111056. doi:10.1016/j.commatsci.2021.111056
Phase-Field Model for the Simulation of Brittle-Anisotropic and Ductile Crack Propagation in Composite Materials
Herrmann, C.; Schneider, D.; Schoof, E.; Schwab, F.; Nestler, B.
2021. Materials, 14 (17), Art.-Nr.: 4956. doi:10.3390/ma14174956
Effect of tortuosity, porosity, and particle size on phase-separation dynamics of ellipsoid-like particles of porous electrodes: Cahn-Hilliard-type phase-field simulations
Santoki, J.; Daubner, S.; Schneider, D.; Kamlah, M.; Nestler, B.
2021. Modelling and simulation in materials science and engineering, 29 (6), Art.Nr. 065010. doi:10.1088/1361-651X/ac11bc
Kleine Bausteine mit großer Wirkung
Kneer, A.; August, A.; Wirtz, M.; Herrmann, C.; Schneider, D.; Nestler, B.
2021. Forschung aktuell, 44–51
Simulating mechanical wave propagation within the framework of phase-field modelling
Liu, X.; Schneider, D.; Daubner, S.; Nestler, B.
2021. Computer methods in applied mechanics and engineering, 381, Article: 113842. doi:10.1016/j.cma.2021.113842
Phase-field formulation of a fictitious domain method for particulate flows interacting with complex and evolving geometries
Reder, M.; Schneider, D.; Wang, F.; Daubner, S.; Nestler, B.
2021. International Journal for Numerical Methods in Fluids, 93 (8), 2486–2507. doi:10.1002/fld.4984
Multiphase-field model for surface diffusion and attachment kinetics in the grand-potential framework
Hoffrogge, P. W.; Mukherjee, A.; Nani, E. S.; Amos, P. G. K.; Wang, F.; Schneider, D.; Nestler, B.
2021. Physical review / E, 103 (3), Article no: 033307. doi:10.1103/PhysRevE.103.033307
Multiphase-field modeling of spinodal decomposition during intercalation in an Allen-Cahn framework
Daubner, S.; Kubendran Amos, P. G.; Schoof, E.; Santoki, J.; Schneider, D.; Nestler, B.
2021. Physical review materials, 5 (3), Article no: 035406. doi:10.1103/PhysRevMaterials.5.035406
Modeling of yield point phenomenon using multiphase field method
Kulkarni, N.; Herrmann, C.; Schoof, E.; Hoffrogge, P.; Schneider, D.; Nestler, B.; Schwab, R.
2018, Mai 11. International Materials Science Winter School (2018), Karlsruhe, Deutschland, 5. November 2018
Effect of conductivity on the electromigration-induced morphological evolution of islands with high symmetries of surface diffusional anisotropy
Santoki, J.; Mukherjee, A.; Schneider, D.; Nestler, B.
2021. Journal of applied physics, 129 (2), Ar. Nr.: 025110. doi:10.1063/5.0033228
Morphological stability of three-dimensional cementite rods in polycrystalline system : A phase-field analysis
Mittnacht, T.; Kubendran Amos, P. G.; Schneider, D.; Nestler, B.
2021. Journal of materials science & technology, 77, 252–268. doi:10.1016/j.jmst.2020.11.019
Phase-inherent linear visco-elasticity model for infinitesimal deformations in the multiphase-field context
Schwab, F. K.; Reiter, A.; Herrmann, C.; Schneider, D.; Nestler, B.
2020. Advanced modeling and simulation in engineering sciences, 7 (1), Art.-Nr.: 47. doi:10.1186/s40323-020-00178-x
Multiphase-field modelling of crack propagation in geological materials and porous media with Drucker-Prager plasticity
Späth, M.; Herrmann, C.; Prajapati, N.; Schneider, D.; Schwab, F.; Selzer, M.; Nestler, B.
2020. Computational geosciences, 25 (1), 325–343. doi:10.1007/s10596-020-10007-0
On the Volume-Diffusion Governed Termination-Migration Assisted Globularization in Two-Phase Solid-State Systems: Insights from Phase-Field Simulations
Amos, P. G. K.; Schoof, E.; Schneider, D.; Nestler, B.
2019. Proceedings of the 1st International Conference on Numerical Modelling in Engineering – Volume 2: Numerical Modelling in Mechanical and Materials Engineering, NME 2018, 28-29 August 2018, Ghent University, Belgium. Ed.: M. Abdel Wahab, 47–63, Springer. doi:10.1007/978-981-13-2273-0_5
Brittle anisotropic fracture propagation in quartz sandstone: insights from phase-field simulations
Prajapati, N.; Herrmann, C.; Späth, M.; Schneider, D.; Selzer, M.; Nestler, B.
2020. Computational geosciences, 24, 1361–1376. doi:10.1007/s10596-020-09956-3
Influence of stress-free transformation strain on the autocatalytic growth of bainite: A multiphase-field analysis
Schoof, E.; Kubendran Amos, P. G.; Schneider, D.; Nestler, B.
2020. Materialia, 9, Article: 100620. doi:10.1016/j.mtla.2020.100620
Phase-Field Study of Electromigration-Induced Shape Evolution of a Transgranular Finger-Like Slit
Santoki, J.; Mukherjee, A.; Schneider, D.; Selzer, M.; Nestler, B.
2019. Journal of electronic materials, 48 (1), 182–193. doi:10.1007/s11664-018-6619-5
Limitations of preserving volume in Allen-Cahn framework for microstructural analysis
Kubendran Amos, P. G.; Schoof, E.; Santoki, J.; Schneider, D.; Nestler, B.
2020. Computational materials science, 173, Article No.109388. doi:10.1016/j.commatsci.2019.109388
Role of conductivity on the electromigration-induced morphological evolution of inclusions in {110}-oriented single crystal metallic thin films
Santoki, J.; Mukherjee, A.; Schneider, D.; Nestler, B.
2019. Journal of applied physics, 126 (16), Article No.165305. doi:10.1063/1.5119714
Understanding the influence of neighbours on the spheroidization of finite 3-dimensional rods in a lamellar arrangement: Insights from phase-field simulations
Mittnacht, T.; Amos, P. G. K.; Schneider, D.; Nestler, B.
2019. Proceedings of the 1st International Conference on Numerical Modelling in Engineering : NME 2018, 28-29 August 2018, Ghent, Belgium. Ed.: M. Abdel Wahab, 290–299, Springer. doi:10.1007/978-981-13-2273-0_23
Multiphase-Field Modeling and Simulation of Martensitic Phase Transformation in Heterogeneous Materials
Schoof, E.; Herrmann, C.; Schneider, D.; Hötzer, J.; Nestler, B.
2019. High Performance Computing in Science and Engineering ’18. Ed.: W. Nagel, 475–488, Springer International Publishing. doi:10.1007/978-3-030-13325-2_30
On the multiphase-field modeling of martensitic phase transformation in dual-phase steel using J2-viscoplasticity
Schoof, E.; Herrmann, C.; Streichhan, N.; Selzer, M.; Schneider, D.; Nestler, B.
2019. Modelling and simulation in materials science and engineering, 27 (2), 025010. doi:10.1088/1361-651X/aaf980
Multiphase-field model of small strain elasto-plasticity according to the mechanical jump conditions
Herrmann, C.; Schoof, E.; Schneider, D.; Schwab, F.; Reiter, A.; Selzer, M.; Nestler, B.
2018. Computational mechanics, 62 (6), 1399–1412. doi:10.1007/s00466-018-1570-0
Phase-field analysis of quenching and partitioning in a polycrystalline Fe-C system under constrained-carbon equilibrium condition
Kubendran Amos, P. G.; Schoof, E.; Streichan, N.; Schneider, D.; Nestler, B.
2019. Computational materials science, 159, 281–296. doi:10.1016/j.commatsci.2018.12.023
Phase-field study of surface irregularities of a cathode particle during intercalation
Santoki, J.; Schneider, D.; Selzer, M.; Wang, F.; Kamlah, M.; Nestler, B.
2018. Modelling and simulation in materials science and engineering, 26 (6), 065013. doi:10.1088/1361-651X/aad20a
Chemo-elastic phase-field simulation of the cooperative growth of mutually-accommodating Widmanstätten plates
Kubendran Amos, P. G.; Schoof, E.; Schneider, D.; Nestler, B.
2018. Journal of alloys and compounds, 767, 1141–1154. doi:10.1016/j.jallcom.2018.07.138
An elasto-chemical phase-field model for isotropic solids
Tschukin, O.; Schneider, D.; Nestler, B.
2018. European journal of mechanics / A, 73, 181–191. doi:10.1016/j.euromechsol.2018.06.014
Multiphase-field modeling of martensitic phase transformation in a dual-phase microstructure
Schoof, E.; Schneider, D.; Streichhan, N.; Mittnacht, T.; Selzer, M.; Nestler, B.
2018. International journal of solids and structures, 134, 181–194. doi:10.1016/j.ijsolstr.2017.10.032
Correction to: Small strain multiphase-field model accounting for configurational forces and mechanical jump conditions
Schneider, D.; Schoof, E.; Tschukin, O.; Reiter, A.; Herrmann, C.; Schwab, F.; Selzer, M.; Nestler, B.
2018. Computational mechanics, 61 (3), 297. doi:10.1007/s00466-017-1485-1
Concepts of modeling surface energy anisotropy in phase-field approaches
Tschukin, O.; Silberzahn, A.; Selzer, M.; Amos, P. G. K.; Schneider, D.; Nestler, B.
2017. Geothermal Energy, 5 (1), Art.Nr. 19. doi:10.1186/s40517-017-0077-9
Small strain multiphase-field model accounting for configurational forces and mechanical jump conditions
Schneider, D.; Schoof, E.; Tschukin, O.; Reiter, A.; Herrmann, C.; Schwab, F.; Selzer, M.; Nestler, B.
2018. Computational mechanics, 61 (3), 277–295. doi:10.1007/s00466-017-1458-4
Elasto-plastic phase-field model accounting for mechanical jump conditions during solid-state phase transformations
Schneider, D.; Tschukin, O.; Choudhury, A.; Selzer, M.; Nestler, B.
2015. International Conference on Solid-Solid Phase Transformations in Inorganic Materials (PTM), Whistler, Canada, 28th June - 3rd July 2015
Simulation der martensitischen Transformation in polykristallinen Gefügen mit der Phasenfeldmethode
Schoof, E.; Streichhan, N.; Schneider, D.; Selzer, M.; Nestler, B.
2017. Forschung aktuell, 13–16
Evolution von Mikroporen in Kristallen mit hexagonaler Gitteranisotropie
Schneider, D.; Langerome, B.; Selzer, M.; Reiter, A.; Nestler, B.
2016. Forschung aktuell, 36–38
Elasto-plastic phase-field model based on mechanical jump conditions
Schneider, D.; Tschukin, O.; Selzer, M.; Nestler, B.
2015. 2. GAMM Seminar on Phase-Field-Modelling, Siegen University, Germany, 5th - 6th February 2015
Elastoplastic phase-field model accounting for mechanical jump conditions during solid-state phase transformations
Schneider, D.; Tschukin, O.; Schoof, E.; Choudhury, A.; Selzer, M.; Nestler, B.
2015. PTM 2015 : International Conference on Solid-Solid Phase Transformations in Inorganic Materials, Westin Whistler Resort & Spa, Canada, 28th June - 3rd July 2015
Elastoplastic phase-field model accounting for mechanical jump conditions during solid-state phase transformations
Schneider, D.; Tschukin, O.; Schoof, E.; Choudhury, A.; Selzer, M.; Nestler, B.
2015. ICM12 : 12th International Conference on the Mechanical Behavior of Materials, Karlsruhe, Germany, 10th - 14th May 2015
Phasenfeldmodellierung der Spannungsentwicklung in heterogenen Gefügen
Schneider, D.; Tschukin, O.; Choudhury, A.; Selzer, M.; Nestler, B.
2014. Sitzung Fachausschuss Computersimulation, Bochum, Deutschland, 2014
Phase-field modeling of stress evolution in heterogen structures
Schneider, D.; Tschukin, O.; Choudhury, A.; Selzer, M.; Nestler, B.
2014. 11th World Congress on Computational Mechanics, Barcelona, Spain, 20–25 July 2014
On stress and driving force calculation within phase-field models : Applications to martensitic phase transformation and crack propagation in multiphase systems
Schneider, D.; Schoof, E.; Tschukin, T.; Schwab, F.; Selzer, M.; Nestler, B.
2016. Interdisziplinäres Seminar Mathematik und Mechanik, Kaiserslautern, Deutschland, 2016
Phase-field modeling of crack propagation in multiphase systems
Schneider, D.; Schoof, E.; Schwab, F.; Selzer, M.; Nestler, B.
2016. EMMC15 : 15th European Mechanics of Materials Conference, Brussel, Belgium, 7th - 9th September 2016
Phase-field modeling of crack propagation in multiphase systems
Schneider, D.; Schoof, E.; Schwab, F.; Selzer, M.; Nestler, B.
2016. ECCOMAS 2016 : European Congress on Computational Methods in Applied Sciences and Engineering, Crete Island, Greece, 5th - 10th June 2016
On stress and driving force calculation within multiphase-field models : Applications to martensitic phase transformation in multigrain systems
Schneider, D.; Schoof, E.; Schwab, F.; Herrmann, C.; Selzer, M.; Nestler, B.
2017. 4th GAMM Workshop on Phase Field Modeling, RWTH Aachen University, Germany, 2nd - 3rd February 2017
Phase-Field Modeling of Solid-Solid Phase Transformations
Schneider, D.; Kumar, A.; Tschukin, O.; Selzer, M.; Nestler, B.
2015. ESMC9 : 9th European Solid Mechanics Conference, Madrid, Spain, 6th - 10th July 2015
On the stress calculation within phase-field approaches : a model for finite deformations
Schneider, D.; Schwab, F.; Schoof, E.; Reiter, A.; Herrmann, C.; Selzer, M.; Böhlke, T.; Nestler, B.
2017. Computational mechanics, 60 (2), 203–217. doi:10.1007/s00466-017-1401-8
Elasto-plastisches Materialverhalten – ein Mikrostrukturmodell für plastische Verformung
Höhn, J.; Schneider, D.; Schmid, S.; Nestler, B.
2012. Forschung aktuell, 2012, 56–57
Elasto-plastic phase-field model accounting for mechanical jump conditions during solid-state phase transformations
Schneider, D.; Tschukin, O.; Choudhury, A.; Selzer, M.; Nestler, B.
2015. Proceedings of the International Conference on Solid-Solid Phase Transformations in Inorganic Materials 2015 (PTM), Whistler, Canada, 28th June - 3rd July 2015. Ed.: M. Militzer, 899–900, PTM
Calibration of a multi-phase field model with quantitative angle measurement
Hötzer, J.; Tschukin, O.; Ben Said, M.; Berghoff, M.; Jainta, M.; Barthelemy, G.; Smorchkov, N.; Schneider, D.; Selzer, M.; Nestler, B.
2016. Journal of materials science, 51 (4), 1788–1797. doi:10.1007/s10853-015-9542-7
Phase-field modeling of crack propagation in multiphase Systems
Schneider, D.; Schoof, E.; Huang, Y.; Selzer, M.; Nestler, B.
2016. Computer methods in applied mechanics and engineering, 312, 186–195. doi:10.1016/j.cma.2016.04.009
Modeling of crack propagation on a mesoscopic length scale
Nestler, B.; Schneider, D. M.; Schoof, E.; Huang, Y.; Selzer, M.
2016. GAMM-Mitteilungen, 39 (1), 78–91. doi:10.1002/gamm.201610005
A multiscale approach for thermomechanical simulations of loading courses in cast iron brake discs
Schmid, S.; Schneider, D. M.; Herrmann, C.; Selzer, M.; Nestler, B.
2016. International Journal for Multiscale Computational Engineering, 14 (1), 25–43. doi:10.1615/IntJMultCompEng.2015014764
Phase-field modeling of diffusion coupled crack propagation processes
Schneider, D.; Selzer, M.; Bette, J.; Rementeria, I.; Vondrous, A.; Hoffmann, M. J.; Nestler, B.
2014. Advanced Engineering Materials, 16 (2), 142–146. doi:10.1002/adem.201300073
Combined crystal plasticity and phase-field method for recrystallization in a process chain of sheet metal production
Vondrous, A.; Bienger, P.; Schreijäg, S.; Selzer, M.; Schneider, D.; Nestler, B.; Helm, D.; Mönig, R.
2015. Computational mechanics, 55 (2), 439–452. doi:10.1007/s00466-014-1115-0
Veröffentlichungen
Titel Autor Quelle

Computational Mechanics, (2015)

Computational Mechanics, (2015) 1-14

Computational Mechanics, (2014) 27-35

Advanced Engineering Materials, (2013) 142-146

Forschung Aktuell, (2012)

Physica Status Solidi (b), (2010) 1424-1447
 

Physica Status Solidi (b), (2010) 1448-1452

Nature Photonics, (2009) 279-282