| Analysis of Dislocation Pile-ups Using a Dislocation-Based Continuum Theory |
Schulz, K., Dickel, D., Schmitt, S., Sandfeld, S., Weygand, D., Gumbsch, P.
|
Modelling and Simulation in Materials Science and Engineering, 22(2) (2014), 025008
|
| Towards Frank-Read Sources in the Continuum Dislocation Dynamics Theory |
S. Sandfeld, T. Hochrainer |
AIP Conf. Proc., Vol. 1389,
1531-1534, 2011 |
| Continuum modeling of dislocation plasticity: Theory, numerical implementation, and comparison to discrete dislocation simulations |
P. Gumbsch, S. Sandfeld,
J. Senger, D. Weygand,
T. Hochrainer |
Proceedings of the 3rd International Conference on Heterogeneous Material Mechanics (ICHMM-2011) (DEStech Publications, 2011), 7-15
|
| Continuum modeling of dislocation plasticity: Theory, numerical implementation and validation by discrete dislocation simulations |
S. Sandfeld, T. Hochrainer,
M. Zaiser, P. Gumbsch |
Journal of Material Research, 26, (2011), 623-632
|
| Shaker Verlag: The Evolution of Dislocation Density in a Higher-order Continuum Theory of Dislocation Plasticity |
S. Sandfeld |
Schriftenreihe "Werkstoffwissenschaft und Werkstofftechnik", Band 64 (2010) |
| The evolution of dislocation density in a higher-order continuum theory |
S. Sandfeld
|
PhD thesis, The University of Edinburgh (2010)
|
| Numerical implementation of a 3D continuum theory of dislocation dynamics and application to micro-bending |
S. Sandfeld, T. Hochrainer,
M. Zaiser, P. Gumbsch |
Philosophical Magazine, 90, (2010), 3697-3728
|
| Application of a 3D-Continuum Theory of Dislocations to Problems of Constrained Plastic FLow: Microbending of Thin Film |
S. Sandfeld, M. Zaiser, T. Hochrainer |
Mater. Res. Soc. Symp. Proc., vol. 1224 (2009) |
| Expansion of Quasi-Discrete Displocation Loops in the Context of a 3D Continuum Theory of Curved Displocations |
S. Sandfeld, M. Zaiser, T. Hochrainer |
AIP Conf. Proc., vol. 1168, 1148-1151, no. 1 (2009) |
| A comparative study on the use of numerical and analytical gradients in parameter identification |
S. Sandfeld |
Master's Thesis des MSc
Studiengangs 'Computational
Mechanics of Materials
and Structure' (COMMAS),
Universität Stuttgart
durchgeführt am Fraunhofer
IWM, Juli 2005
|
