Home | english  | Impressum | Datenschutz | Sitemap | KIT
Markus Sudmanns

M.Sc. Markus Sudmanns

Gruppe: 

Dislocation based Continuum Theory of Plasticity


Raum: 107
Tel.: +49 721 608-45869
markus sudmannsRfj2∂kit edu

Geb. 30.48



Forschung

Forschung Markus Sudmanns

Publikationen


Dislocation multiplication by cross-slip and glissile reaction in a dislocation based continuum formulation of crystal plasticity.
Sudmanns, M.; Stricker, M.; Weygand, D.; Hochrainer, T.; Schulz, K.
2019. Journal of the mechanics and physics of solids, 132, 103695
Mesoscale Simulation of Dislocation Microstructures at Internal Interfaces.
Schulz, K.; Sudmanns, M.
2019. High Performance Computing in Science and Engineering’18 : Transactions of the High Performance Computing Center, Stuttgart (HLRS) 2018. Ed.: W.E. Nagel, 115–129, Springer, Cham. doi:10.1007/978-3-030-13325-2_7
Dislocation multiplication in stage II deformation of fcc multi-slip single crystals.
Stricker, M.; Sudmanns, M.; Schulz, K.; Hochrainer, T.; Weygand, D.
2018. Journal of the mechanics and physics of solids, 119, 319–333. doi:10.1016/j.jmps.2018.07.003
Plastic flow and dislocation strengthening in a dislocation density based formulation of plasticity.
Sudmanns, M.; Gumbsch, P.; Schulz, K.
2018. Computational materials science, 151, 317–327. doi:10.1016/j.commatsci.2018.04.065
A mechanism-based homogenization strategy for the determination of flow stress and strain hardening.
Schulz, K.; Sudmanns, M.
2017. Proceedings in applied mathematics and mechanics, 17 (1), 107–110. doi:10.1002/pamm.201710031
Discussion of crack initiation in metal matrix composites.
Sudmanns, M.; Schulz, K.
2017. Proceedings of the 7th GACM Colloquium on Computational Mechanics for Young Scientists from Academia and Industry, Stuttgart, Germany, 11th - 13th October 2017. Ed.: M. von Scheven, 296–299, Institute for Structural Mechanics, University of Stuttgart
Dislocation-density based description of the deformation of a composite material.
Schulz, K.; Sudmanns, M.; Gumbsch, P.
2017. Modelling and simulation in materials science and engineering, 25 (6), 064003. doi:10.1088/1361-651X/aa7a88