After successful completion of the course, students are able to understand the chemical and physical concepts behind the properties of advanced ceramics and metals and they can discuss what makes a material best suited for certain applications.
Teil I (together with part I of High Performance Ceramics) J. Fleig , 2SWS:
- Introduction, definition of advanced ceramics
- Important ceramics (Al2O3, ZrO2, ZnO, BaTiO3, Ferrites, SiC, AlN, PZT etc.)
- Structure property relations
- Properties (electrical, dielectric, thermal mechanical) and their applications
Part II, C. Edtmaier (1 SWS):
- Most important metallic materials and their commercial importance
- Principles of metal production and refinery including Richardson-Ellingham diagrams; Pourbaix diagrams
- Most important properties of metals and processing of metals
Lecture, primarily written onto the blackboard (part I) or in powerpoint (part II), taught in German
Teil I der VO (Keramik), gemeinsam mit VO Hochleistungskeramik: Videoaufnahmen der VO und Skript (terminunabhängig), ab ca. Mitte Oktober in TUWEL (=> keine Fixtermine)
Teil II (Metalle): Termine teilweise gemeinsam mit der Vorlesung Metallurgie und Werkstoffverarbeitung 164.162, Beginn: Fr 9.11.2020 ab 09.00 Uhr via go2m.
Two parts:
Part I (Fleig): Written exam (2 hours), dates: typically once per month, Registration in TUWEL of the LVA 164.164 High Performance Ceramics
Part II (Edtmaier/Khatibi): Oral exam, dates can be arranged