Lehrstuhl für Werkstoffsimulation

Adresse:
Dr.-Mack-Straße 77
90762 Fürth


Forschungsprojekt(e)


(Skalenübergreifende Bruchvorgänge: Integration von Mechanik, Materialwissenschaften, Mathematik, Chemie und Physik (FRASCAL)):
GRK2423 - P3: Rissbildung in Nanopartikel-Polymer Kompositen: von der Nano- zur Mesoskala
Dr. Paolo Moretti; Prof. Dr. Dirk Zahn
(02.01.2019 - 30.06.2023)


(Skalenübergreifende Bruchvorgänge: Integration von Mechanik, Materialwissenschaften, Mathematik, Chemie und Physik (FRASCAL)):
GRK2423 - P4: Teilprojekt P4 - Fragmentation in Large Scale DEM Simulations
Prof. Dr. Thorsten Pöschel; Prof. Dr. Michael Zaiser
(02.01.2019 - 30.06.2023)


(Skalenübergreifende Bruchvorgänge: Integration von Mechanik, Materialwissenschaften, Mathematik, Chemie und Physik (FRASCAL)):
GRK2423 - P5: Teilprojekt P5 - Compressive Failure in Porous Materials
Prof. Dr.-Ing. Paul Steinmann; Prof. Dr. Michael Zaiser
(02.01.2019 - 30.06.2023)


(Skalenübergreifende Bruchvorgänge: Integration von Mechanik, Materialwissenschaften, Mathematik, Chemie und Physik (FRASCAL)):
GRK2423 - P7: Teilprojekt P7 - Collective Phenomena in Failure at Complex Interfaces
Prof. Dr. Bernd Meyer; Dr. Paolo Moretti
(02.01.2019 - 30.06.2023)


(FOR 1650: Dislocation based Plasticity):
FOR 1650: Deterministische und Stochastische Kontinuumsmodelle der Versetzungsmusterbildung
Prof. Dr. Michael Zaiser
(01.10.2015 - 30.09.2018)



Publikationen (Download BibTeX)

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Safari, A., & Moretti, P. (2017). Topological dimension tunes activity patterns in hierarchical modular networks. New Journal of Physics, 19.
Groma, I., Zaiser, M., & Ispanovity, P.D. (2016). Dislocation patterning in a two-dimensional continuum theory of dislocations. Physical Review B, 93(21). https://dx.doi.org/10.1103/PhysRevB.93.214110
Safari, A., & Moretti, P. (2016). Epidemic threshold in hierarchical modular network models. In Extended abstracts (pp. 82 - 83). Milan (Italy).
Steinberger, D., Gatti, R., & Sandfeld, S. (2016). A Universal Approach Towards Computational Characterization of Dislocation Microstructure. JOM, 68(8), 2065-2072. https://dx.doi.org/10.1007/s11837-016-1967-1
Sandfeld, S., & Wu, R. (2016). Insights from a minimal model of dislocation-assisted rafting in single crystal Nickel-based superalloys. Scripta Materialia, 123, 42-45. https://dx.doi.org/10.1016/j.scriptamat.2016.05.032
Wu, R., & Sandfeld, S. (2016). Some Steps towards Modelling of Dislocation Assisted Rafting: A Coupled 2D Phase Field - Continuum Dislocation Dynamics Approach. (pp. 641-648). Minerals, Metals and Materials Society.
Villegas, P., Hidalgo, J., Moretti, P., & Muñoz, M. (2016). Complex Synchronization Patterns in the Human Connectome Network. In Proceedings of ECCS 2014 (pp. 69 - 80).
Monavari, M., Sandfeld, S., & Zaiser, M. (2016). Continuum representation of systems of dislocation lines: A general method for deriving closed-form evolution equations. Journal of the Mechanics and Physics of Solids, 95, 575-601. https://dx.doi.org/10.1016/j.jmps.2016.05.009
Zaiser, M. (2015). Local density approximation for the energy functional of three-dimensional dislocation systems. Physical Review B, 92(17). https://dx.doi.org/10.1103/PhysRevB.92.174120
Sandfeld, S., & Zaiser, M. (2015). Pattern formation in a minimal model of continuum dislocation plasticity. Modelling and Simulation in Materials Science and Engineering, 23(6). https://dx.doi.org/10.1088/0965-0393/23/6/065005
Zaiser, M., Lennartz-Sassinek, S., & Moretti, P. (2015). Crack phantoms: localized damage correlations and failure in network models of disordered materials. Journal of Statistical Mechanics-Theory and Experiment. https://dx.doi.org/10.1088/1742-5468/2015/08/P08029
Kapetanou, O., Weygand, D., & Zaiser, M. (2015). Stress and strain fluctuations in plastic deformation of crystals with disordered microstructure. Journal of Statistical Mechanics-Theory and Experiment. https://dx.doi.org/10.1088/1742-5468/2015/08/P08009
Villa Martín, P., Moretti, P., & Muñoz, M. (2015). Rounding of abrupt phase transitions in brain networks. Journal of Statistical Mechanics-Theory and Experiment, 2015(1). https://dx.doi.org/10.1088/1742-5468/2015/01/P01003
Sandfeld, S., Thawinan, E., & Wieners, C. (2015). A link between microstructure evolution and macroscopic response in elasto-plasticity: Formulation and numerical approximation of the higher-dimensional continuum dislocation dynamics theory. International Journal of Plasticity, 72, 1-20. https://dx.doi.org/10.1016/j.ijplas.2015.05.001
Sandfeld, S., & Po, G. (2015). Microstructural comparison of the kinematics of discrete and continuum dislocations models. Modelling and Simulation in Materials Science and Engineering, 23(8). https://dx.doi.org/10.1088/0965-0393/23/8/085003
Taloni, A., Benassi, A., Sandfeld, S., & Zapperi, S. (2015). Scalar model for frictional precursors dynamics. Scientific Reports, 5. https://dx.doi.org/10.1038/srep08086
Sandfeld, S., Verbeke, V., & Devincre, B. (2015). Orientation-dependent pattern formation in a 1.5D continuum model of curved dislocations. (pp. 1-6). Materials Research Society.
Sandfeld, S., Budrikis, Z., Zapperi, S., & Fernandez Castellanos, D. (2015). Avalanches, loading and finite size effects in 2D amorphous plasticity: Results from a finite element model. Journal of Statistical Mechanics-Theory and Experiment, 2015(2). https://dx.doi.org/10.1088/1742-5468/2015/02/P02011
Zhang, X., Aifantis, K.E., Senger, J., Weygand, D., & Zaiser, M. (2014). Internal length scale and grain boundary yield strength in gradient models of polycrystal plasticity: How do they relate to the dislocation microstructure? Journal of Materials Research, 29(18), 2116-2128. https://dx.doi.org/10.1557/jmr.2014.234
Zaiser, M., & Sandfeld, S. (2014). Scaling properties of dislocation simulations in the similitude regime. Modelling and Simulation in Materials Science and Engineering, 22(6). https://dx.doi.org/10.1088/0965-0393/22/6/065012

Zuletzt aktualisiert 2018-30-04 um 07:53