Projects / Programmes
Micromorphology of selective surface segregation of antimony
Code |
Science |
Field |
Subfield |
2.04.02 |
Engineering sciences and technologies |
Materials science and technology |
Metallic materials |
Code |
Science |
Field |
T450 |
Technological sciences |
Metal technology, metallurgy, metal products |
surface segregation, micromorphology of surface segregated layers, selective grain growth, diffusion, texture, magnetic properties, single crystals of pure Fe, AES, XPS, STM and LEED
Researchers (6)
no. |
Code |
Name and surname |
Research area |
Role |
Period |
No. of publicationsNo. of publications |
1. |
06073 |
PhD Milan Bizjak |
Materials science and technology |
Researcher |
1998 - 1999 |
464 |
2. |
05675 |
PhD Monika Jenko |
Neurobiology |
Head |
1997 - 1999 |
842 |
3. |
00050 |
PhD Ladislav Kosec |
Materials science and technology |
Researcher |
1999 |
851 |
4. |
08850 |
PhD Djordje Mandrino |
Physics |
Researcher |
1999 |
234 |
5. |
17196 |
Boško Ralić |
|
Researcher |
1999 |
20 |
6. |
00735 |
PhD Anton Smolej |
Materials science and technology |
Researcher |
1998 - 1999 |
276 |
Organisations (2)
Abstract
It is established, that certain segregation of antimony on the surface of non oriented electrical sheets improves the texture and core losses due to grain growth of grains with the crystallographic orientation <100>(001) which are magnetically soft on the account of magnetically hard grains with <111>(001) orientation. The main goal of the project is to explain the fundamental physical and chemical mechanism of the process, that the ultra thin segregated film below one monolayer influence the driving force of selective grain growth of recrystallized grains.