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.
The chapter numbers refer to the book "G. Fasching: "Werkstoffe für die Elektrotechnik"; Springer-Verlag, 2006".
Lecture 1: Atomic nucleus and orbits
Lecture 2: Binding forces
Lecture 3: Crystals
Lecture 4: Mechanical properties of materials 1
Lecture 5: Mechanical properties of materials 2
Lecture 6: Metallic materials / Alloys
Lecture 7: Thermal materials properties
Lecture 8: Thermally activated processes
Lecture 9: Electrical properties of metalls
Lecture 10: Electrical properties of insulators 1
Lecture 11: Electrical properties of insulators 2
Lecture 12: Magnetic properties of materials 1
Lecture 13: Magnetic properties of meterials 2
Lecture 14: Superconductivity
Lecture 15: Selected calculation examples
(Lecture 16) Alternative date
The lecture is based on the book "G. Fasching: Materials for Electrical Engineering; (in German) Springer-Verlag, 2006".
Accompanying the lecture a corresponding Materials Internship 366.105 will be held in the winter semester and the summer semester.
Important: Separate registration for the accompanying Materials Laboratory Exercise 366.105 in TISS
