Studienhandbuch | KV Microstructure and Thermodynamics

Inhalt

Workload	Education level	Study areas	Responsible person	Hours per week	Coordinating university
3 ECTS	M1 - Master's programme 1. year	^(*)Maschinenbau	Bernhard Sonderegger	2 hpw	Johannes Kepler University Linz

Detailed information

Original study plan

Master's programme Mechanical Engineering 2025W

Learning Outcomes

Competences
Students are able to understand and model microstructural evolution phenomena of complex alloys with thermodynamic methods.

Skills	Knowledge
- Interpretation of phase equilibria (K1) - Interpretation of non-equilibrium microstructures (K2) - Understanding the atomistic principles of diffusion processes (K3) - Understanding phase boundary energies (K4) - Operating Wagner-Kampmann-models (K5)	• Microstructure o Microstructural investigations o Mechanical properties o Microstructural evolution • Thermodynamic o Thermodynamic equilibrium o Thermodynamic non-equilibrium o Diffusion o Dislocation motion and interactions

Criteria for evaluation

Written examination

Methods

Lecture and calculation exercises

Language

German

Study material

E. Hornbogen et al.: „Werkstoffe: Aufbau und Eigenschaften von Keramik-, Metall-, Polymer- und Verbundwerkstoffen“, Springer 2019.

H. Bargel, G. Schulze: „Werkstoffkunde“, Springer 2018.

Changing subject?

On-site course
Maximum number of participants	-
Assignment procedure	Assignment according to priority