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dr Tomasz Wejrzanowski |
| e-mail: | |
| phone: | +48-22-6608742 |
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| web: | |
| interest(s): | nanomaterials, modelling, stereology |
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Affiliation: |
Warsaw University of Technology, Faculty of Materials Science and Engineering|
| address: | Wołoska 141, Warszawa, 02-507, Poland | | phone: | (+48-22)6608529 | | fax: | (+48-22)6608514 | | web: | http://www.inmat.pw.edu.pl | |
Affiliation: |
Interdisciplinary Centre for Materials Modelling|
| address: | Woloska 141, Warszawa, 02-507, Poland | | phone: | | | fax: | | | web: | | |
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| began: | 1999-09-13 |
| ended: | 1999-09-17 |
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| began: | 2001-06-22 |
| ended: | 2001-06-25 |
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| began: | 2002-09-15 |
| ended: | 2002-09-19 |
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| began: | 2004-09-06 |
| ended: | 2004-09-10 |
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Publications: |
- Annealing temperature effect on residual stresses in 316L steel subjected to HPT process
- Characterization of nanopowders
- Grain Boundary Migration in Nanocrystalline Iron
- Investigations of phase composition and grain size distribution in Pr doped ZrO2
- Measuring the Grain Size Distribution of Pr-doped Zirconia Nanopowders obtained by Microwave Driven Hydrothermal Synthesis
- Modeling of growth kinetics of SiC single crystal in PVT process
- Modeling of heat and mass transfer in GaN MOVPE reactor
- Modelling of Grain Growth in nano-polycrystalline materials
- Modelling of plastic deformation of nano-polycrystalline materials
- Modelling of the Influence of the Grain Size Distribution on the Grain Growth in Nanocrystals
- Molecular statics simulation of nanoindentation on nanocrystalline copper
Fabrication and micro-structure characterization of Al2O3/Ni-P composites with interpenetrating phases - Statistical model of grain growth in polycrystalline nanomaterials
- Stochastic Approach To The Changes In The Mechanical Properties Of Nano-Crystalline Materials Induced By Grain Growth
- Surface effect on atomic ordering in nano-layered L10 AB binaries: multiscale Monte Carlo Simulation
- The effect of grain size distribution on mechanical properties of nanometals
- The influence of the PVT growth conditions on the SiC crystal shape
- The influence of twin bands density on microstructure of 316LVM austenitic stainless steel subjected to transverse rolling
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