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Table of Contents
Part I. Introduction
1. Plaston induced plasticity in bulk nanostructured metals
Part II. Simulation of plaston and plaston induced phenomena
2. Nucleation of plaston at surface and interface of metallic materials
3. Atomistic study of plaston in nanostructured metals
4. First principles calculations of collective motion of atoms in metals
5. Machine learning interatomic potentials with controlled accuracy
6. First principles calculations of dislocation cores in HCP metals
Part III. Experimental analyses of plaston
7. STEM observation of plaston in alumina
8. Micro-pillar deformation experiments of brittle intermetallics in steel
9. Nano-indentation study of steels
10. Synchrotron x-ray study on plaston in metals
11. Improvement of fatigue lifetime by controlling plaston at crack tip
Part IV. Design and development of high performance structural materials
12. Development of bulk nanostructured steels
13. Design and development of high Mn steels
14. Design and development novel magnesium alloys.
1. Plaston induced plasticity in bulk nanostructured metals
Part II. Simulation of plaston and plaston induced phenomena
2. Nucleation of plaston at surface and interface of metallic materials
3. Atomistic study of plaston in nanostructured metals
4. First principles calculations of collective motion of atoms in metals
5. Machine learning interatomic potentials with controlled accuracy
6. First principles calculations of dislocation cores in HCP metals
Part III. Experimental analyses of plaston
7. STEM observation of plaston in alumina
8. Micro-pillar deformation experiments of brittle intermetallics in steel
9. Nano-indentation study of steels
10. Synchrotron x-ray study on plaston in metals
11. Improvement of fatigue lifetime by controlling plaston at crack tip
Part IV. Design and development of high performance structural materials
12. Development of bulk nanostructured steels
13. Design and development of high Mn steels
14. Design and development novel magnesium alloys.