Lehrinhalte
The lecture is divided into the following chapters:
1) Introduction and fundamentals
2) Microstructure property correlations
3) Microstructural analysis I Theory
4) Microstructural analysis II Microscopy and diffraction methods
5) Recovery, recrystallization and grain growth
6) Mechanical and thermo-mechanical treatments
7) Engineering microstructures for structural applications
Literature
G. Gottstein, Physical Foundations of Materials Science, Springer (2004)
F.J. Humphreys, M. Hatherly: Recrystallization and Related Annealing Phenomena, Elsevier (2004)
M. Ashby, D. Jones, Engineering Materials 2, Elsevier (2013)
R.W. Cahn, P. Haasen: Physical Metallurgy, Elsevier Science B.V. (1996)
Voraussetzungen
Bachelor modules Real Crystals and Mechanical Properties recommended
The lecture is divided into the following chapters:
1) Introduction and fundamentals
2) Microstructure property correlations
3) Microstructural analysis I Theory
4) Microstructural analysis II Microscopy and diffraction methods
5) Recovery, recrystallization and grain growth
6) Mechanical and thermo-mechanical treatments
7) Engineering microstructures for structural applications
Literature
G. Gottstein, Physical Foundations of Materials Science, Springer (2004)
F.J. Humphreys, M. Hatherly: Recrystallization and Related Annealing Phenomena, Elsevier (2004)
M. Ashby, D. Jones, Engineering Materials 2, Elsevier (2013)
R.W. Cahn, P. Haasen: Physical Metallurgy, Elsevier Science B.V. (1996)
Voraussetzungen
Bachelor modules Real Crystals and Mechanical Properties recommended
- Lehrende: Enrico Bruder
- Lehrende: Clemens Müller
Semester: Inverno 2021/22