Materials Science

• LSF

• Deeper understanding of physical and mechanical phenomena in metals and alloys

• Gain deeper knowledge of the mechanical properties at high temperatures

• Ability to combine microstructural relationships with macroscopic properties of metallic materials and alloys

 Inhalte

• Crystal structures and symmetry classes

• General theory of dislocations and dislocation reactions
  • Perfect dislocations
  • Partial dislocations
  • Defects in dislocations

• Grain boundary theory

  • Tilt and twist grain boundaries

  • Twin and large angle grain boundaries

  • Dislocation network in grain boundaries

• Elastic and plastic deformation

   

  • Plastic behavior of single crystals

     

  • Plastic deformation at high temperatures - creep

     

• Strengthening mechanisms in metallic materials and alloys

• Introduction into thermodynamics of phase transformations and complex phase diagrams

Lehrform

2 hours per week lecture, 1 hours per week exercises, both in-person.

 Rahmenbedingungen

Verantwortliche Lehrperson

Dr.-Ing. Georg Hasemann, FMB

Dr.-Ing. Sebastian Hütter, FMB

Voraussetzungen für die Teilnahme

Master’s level understanding of metals, alloys and materials science

Prüfungsleistung

Klausur, 90 Minuten

Unterlagen

Das Vorlesungsskript und weitere Informationen werden auf der eLearning Plattform der OVGU zur Verfügung gestellt.