dr Tomasz Wejrzanowski

e-mail:
phone: +48-22-6608742
fax:
web:
interest(s): nanomaterials, modelling, stereology

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:

Participant:


High Pressure School 1999 (3rd)

began: 1999-09-13
ended: 1999-09-17
Presented:

Participant:


High Pressure School 2001 (4th)

began: 2001-06-22
ended: 2001-06-25
Presented:

Participant:


E-MRS Fall Meeting 2002

began: 2002-09-15
ended: 2002-09-19
Presented:

Participant:


E-MRS Fall Meeting 2003

began: 2003-09-15
ended: 2003-09-11
Presented:

E-MRS Fall Meeting 2003

Modelling of the Influence of the Grain Size Distribution on the Grain Growth in Nanocrystals

Participant:


E-MRS Fall Meeting 2004

began: 2004-09-06
ended: 2004-09-10
Presented:

Participant:


Struktury i modelowanie nanokryształów

began: 2006-03-10
ended: 2006-03-10
Presented:

Struktury i modelowanie nanokryształów

Modelling of Grain Growth in nano-polycrystalline materials

Participant:


E-MRS Fall Meeting 2006

began: 2006-09-04
ended: 2006-09-08
Presented:

E-MRS Fall Meeting 2006

Grain Boundary Migration in Nanocrystalline Iron

E-MRS Fall Meeting 2006

Statistical model of grain growth in polycrystalline nanomaterials

Participant:


E-MRS Fall Meeting 2007

began: 2007-09-17
ended: 2007-11-30
Presented:

E-MRS Fall Meeting 2007

The effect of grain size distribution on mechanical properties of nanometals

Participant:


17th International Conference on Crystal Growth and Epitaxy - ICCGE-17

began: 2013-08-11
ended: 2013-08-16
Presented:

17th International Conference on Crystal Growth and Epitaxy - ICCGE-17

Modeling of growth kinetics of SiC single crystal in PVT process

Publications:


  1. Annealing temperature effect on residual stresses in 316L steel subjected to HPT process
  2. Characterization of nanopowders
  3. Grain Boundary Migration in Nanocrystalline Iron
  4. Investigations of phase composition and grain size distribution in Pr doped ZrO2
  5. Measuring the Grain Size Distribution of Pr-doped Zirconia Nanopowders obtained by Microwave Driven Hydrothermal Synthesis
  6. Modeling of growth kinetics of SiC single crystal in PVT process
  7. Modeling of heat and mass transfer in GaN MOVPE reactor
  8. Modelling of Grain Growth in nano-polycrystalline materials
  9. Modelling of plastic deformation of nano-polycrystalline materials
  10. Modelling of the Influence of the Grain Size Distribution on the Grain Growth in Nanocrystals
  11. Molecular statics simulation of nanoindentation on nanocrystalline copper
  12. Fabrication and micro-structure characterization of Al2O3/Ni-P composites with interpenetrating phases

  13. Statistical model of grain growth in polycrystalline nanomaterials
  14. Stochastic Approach To The Changes In The Mechanical Properties Of Nano-Crystalline Materials Induced By Grain Growth
  15. Surface effect on atomic ordering in nano-layered L10 AB binaries: multiscale Monte Carlo Simulation
  16. The effect of grain size distribution on mechanical properties of nanometals
  17. The influence of the PVT growth conditions on the SiC crystal shape
  18. The influence of twin bands density on microstructure of 316LVM austenitic stainless steel subjected to transverse rolling



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