1. Introduction to the issue of UFG and nano materials.
2. Physical models of UFG and nano materials.
3. Mechanical properties of UFG and nano materials: elasticity, hardness and strength,plasticity and toughness, formability.
4. Nanometric tests: means and methods for nanomechanical tests, means and methods for electron microscopy analyzes. Diffractometry, the analysis of microstructures in HREM.
5. Dynamic Materials Modeling: 2D and 3D FEM simulation systems of forming technologies.
6. The mechanism of plastic deformation: Depending on the size of grains, classical
materials, superplastic materials, nanomaterials, a mechanism of deformation
function of the size of deformation, the physicals mechanisms of plastic deformation, diffusion and related phenomena.
7. Hall-Petchova equation scope for KM, the SPLM, BNM - measured
values composite law.
8. BNM shaping technology of preparation: technology angular extrusion, C2S2,
HPT, CONFORM, CCDC, CEC, ARB, CGP
2. Physical models of UFG and nano materials.
3. Mechanical properties of UFG and nano materials: elasticity, hardness and strength,plasticity and toughness, formability.
4. Nanometric tests: means and methods for nanomechanical tests, means and methods for electron microscopy analyzes. Diffractometry, the analysis of microstructures in HREM.
5. Dynamic Materials Modeling: 2D and 3D FEM simulation systems of forming technologies.
6. The mechanism of plastic deformation: Depending on the size of grains, classical
materials, superplastic materials, nanomaterials, a mechanism of deformation
function of the size of deformation, the physicals mechanisms of plastic deformation, diffusion and related phenomena.
7. Hall-Petchova equation scope for KM, the SPLM, BNM - measured
values composite law.
8. BNM shaping technology of preparation: technology angular extrusion, C2S2,
HPT, CONFORM, CCDC, CEC, ARB, CGP