1. Introduction and overview 2. Bonding and crystallography, stress, strain, linear elasticity 3. Plasticity of metallic materials 4. Dislocations: Structure, stress, strain, strain energy 5. Dislocations: Motion and forces 6. Partial dislocations, dislocation interactions, jogs and kinks 7. Strengthening mechanisms 8. Introduction to modelling of materials behaviour, classification of phenomena 9. Linear and nonlinear elasticity 10. Plasticity, tensile loading, cyclic loading 11. Viscoelasticity, effects of loading history, creep, relaxation 12. Viscoplasticity, overstress, rate sensitivity of metallic materials 13. Identification of material parameters Hull and Bacon: Introduction to Dislocations (1984) G. Gottstein: Physik. Grundlagen der Materialk. (2001) N.Huber: Scriptum „Materialtheorie“ Uni Karlsruhe (1998) P. Haupt: Cont. Mechanics and Theory of Materials (2002) |