Category:Microscale
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[[Category:Multiscale Simulations]] | [[Category:Multiscale Simulations]] |
Revision as of 08:50, 29 July 2014
Metals • Ceramics • Polymers • Biomaterials • Geomaterials • References
Metals
Metals Overview
The microscale material model is a research code that have been developed outside and used at CAVS for modeling dislocation interactions and reactions in an elastic continuum. The code is used in a hierarchical multiscale framework of the plasticity to obtained information related to the hardening of the material (see for example multiscale framework). Details of the discrete dislocations model can be found in the methodology paper. This particular site contains the research code that has been developed outside for performing and analyzing discrete dislocations simulation results. The research codes used at CAVS comes with a user's manual. We caution the user that there is some risk in using the research version of the codes. For any questions that are not addressed in the user's manual or the 'readme' files accompanying the code, please contact the code developers.
The discrete dislocation simulation code can be used for HCP, BCC and FCC materials.
Material Models
This section includes links to versions of the discrete dislocation dynamics codes. microMegas is commonly used at CAVS to simulate the behavior of dislocations for metals at the microscale.
- microMegas (download the original microMegas code from the French Aerospace Lab here)
- mM v.1.0: serial version with Intel Compiler Optimizations (download mM v. 1.0 from the Codes Repository at CAVS here, using "Download GNU tarball"; compile it as 'mm')
- mM v.1.0: parallel version with Intel Compiler Optimizations and MPI (download mM v. 1.0 from the Codes Repository at CAVS here, using "Download GNU tarball"; compile it as 'mmp')
- mMpar v.1.0: parallel version of mM v.1.0 using openMP threads (download mMpar v. 1.0 from the Codes Repository at CAVS here, using "Download GNU tarball"; compile it as 'mm_omp')
See Tutorials
References
Please remember to cite the following references when publishing results obtained with microMegas:
- F. M. Ciorba, S. Groh and M. F. Horstemeyer. Parallelizing discrete dislocation dynamics simulations on multi-core systems. 10th Int. Conf. on Computational Science, Procedia Computer Science, 1:1, pp. 2129-2137, 2010.
- S. Groh, E. B. Marin, M. F. Horstemeyer, and H. M. Zbib. Multiscale modeling of the plasticity in an aluminum single crystal. Int. J. of Plasticity, 25, pp. 1456-1473, 2009.
- S. Groh and H. M. Zbib. Advances in Discrete Dislocations Dynamics and Multiscale Modeling, J. Eng. Mater. Technol. vol. 131:4, 041209 (10 pages), 2009.
- Multiscale Modeling of Heterogenous Materials: From microstructure to macro-scale properties. Chapter 2: Discrete Dislocation Dynamics: Principles and Recent Applications (by Marc Fivel). Edited by Oana Cazacu. Published by Wiley. ISBN: 9781848210479, 2008.
- B. Devincre, V. Pontikis, Y. Brechet, G.R. Canova, M. Condat and L.P. Kubin. Three-dimensional Simulations of Plastic Flow in Crystals. Plenum Press: New York, M. Marechal, B.L. Holian (eds.), 1992, p. 413
- L.P. Kubin and G. R. Canova. The modelling of dislocation patterns. Scripta Metall., 27, pp. 957-962, 1992
Ceramics
Polymers
Biomaterials
Geomaterials
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Subcategories
This category has the following 4 subcategories, out of 4 total.
Pages in category "Microscale"
The following 52 pages are in this category, out of 52 total.