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courses —
Professor M. Rettenmayr
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subject |
Metals I |
form |
lectures (3 cred. h.), exercises (1 cred. h.) |
content |
- structure of metals and alloys (lattice structure, point defects)
- X-ray structure analysis
- stereographic projection
- textures (pole figures, ODFs)
- magnetic properties
- diffusion
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lecture notes |
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subject |
Metals II |
form |
lectures (3 cred. h.), seminar (1 cred. h.) |
content |
- recovery and recrystallization
- grain coarsening (normal grain growth)
- precipitation hardening
- dislocation theory
- mechanical properties
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see lecture notes Metals I |
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subject |
Phase
transformations |
form |
lectures (2 cred. h.) |
content |
Introduction to thermodynamics and kinetics of phase transformations with emphasis on liquid/solid phase transformations
- mass balances
- characteristic lengths
- plane front solidification
- instabilities / perturbation analysis
- cellular and dendritic growth
- dendrite arm coarsening
- eutectic growth
- asymmetry between solidification and melting
- additional issues for solid/solid phase transformations
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lectures notes available at beginning of course |
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subject |
Numerical methods for materials scientists |
form |
lectures (2 cred. h.), exercises (2 cred. h.) |
content |
Numerical tools for evaluating experimental or simulated data, methods of numerical simulation
- interpolation methods
- regression analysis
- numerical filtering
- differentiation and integration
- general principles of simulation calculations
- finite differences
- finite elements
- stochastic methods
(Cellular Automata, Monte-Carlo,
Random Walk)
- Phase Field method
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lecture notes |
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