After successful completion of the course, students are able to analyze the relationships between the structure and properties of materials using simple and largely universally valid physical models. Furthermore, they will know the corresponding material parameters with their orders of magnitude and are able to solve typical examples from the field of materials science.
Datum Buchkapitel* Thema Vortragender
04.10.2022 1 Atomkern und Atomhülle Schneider
11.10.2022 2 Bindungskräfte Schneider
18.10.2022 3 Kristallstrukturen Keplinger
25.10.2022 9 Elektrische Eigenschaften der Isolatoren I Keplinger
08.11.2022 10 Elektrische Eigenschaften der Isolatoren II Keplinger
22.11.2022 11 Magnetische Werkstoffeigenschaften I Keplinger
29.11.2022 12 Magnetische Werkstoffeigenschaften II Keplinger
06.12.2022 siehe Skriptum Mechanische Werkstoffeigenschaften I Keplinger
13.12.2022 5 Mechanische Werkstoffeigenschaften II S. Schmid
20.12.2022 6 Metallische Werkstoffe / Legierungssysteme Schneider
10.01.2023 7 Thermische Werkstoffeigenschaften Keplinger
17.01.2023 8 Elektrische Eigenschaften der Metalle S. Schmid
24.01.2023 n/a Frage/Antwort Schneider
ATTENTION - IMPORTANT:
Change of this LVA due to the update of the bachelor curriculum ETIT 2023.
This LVA number expires at the end of the winter semester 2023, the LVA will be held again from summer semester 2024 under the number 366.109 (VO) - Materials of Electrical Engineering. The LVA 366.104 will be offered once again in the winter semester 2023.
The LVA 366.109 (VO) Materials of Electrical Engineering will always be held in the summer semester in the future (next lecture 2024 S).
Examinations in the winter semester 2023 will still be handled via 366.104. 366.104 and 366.109 are fully equivalent with the same number of ECTS.
--------------------
Accompanying the lecture VO Materials of Electrical Engineering (366.109), a corresponding practical course 366.110 takes place in each winter semester and summer semester (equally).
The lecture examination is both in the written and oral format. Duration maximum 120 min. Only a pocket calculator is allowed as an aid. The material is given by the lectures and the corresponding chapters of the book "Werkstoffe der Elektrotechnik" and the script "Mechanische Werkstoffeigenschaften" (see documents).
Registrations for the written exams via TISS. Oral examinations take place in the following days by individual arrangement.
Course coordinator: Prof. F. Keplinger / Dr. M. Schneider
Help with organizational questions: M. Nuhsbaumer (martina.nuhsbaumer@tuwien.ac.at)
