Material basis of hot/cold bulk forming of metallic materials.
Complex research of hot formability - methodology.
Plastometers (hot deformation simulators) and other laboratory devices for study of deformation behaviour.
Characteristics, comparison and usability of the physical methods of formability research.
Standard and special application possibilities of hot deformation simulator Gleeble.
Influence of chemical and structural factors on formability.
Influence of thermomechanical factors on formability (including deformation history).
Mathematical description of strengthening and deformation resistance.
Mathematical description of thermally activated processes at forming.
Relation between structural and mechanical properties of the formed material.
Complex research of hot formability - methodology.
Plastometers (hot deformation simulators) and other laboratory devices for study of deformation behaviour.
Characteristics, comparison and usability of the physical methods of formability research.
Standard and special application possibilities of hot deformation simulator Gleeble.
Influence of chemical and structural factors on formability.
Influence of thermomechanical factors on formability (including deformation history).
Mathematical description of strengthening and deformation resistance.
Mathematical description of thermally activated processes at forming.
Relation between structural and mechanical properties of the formed material.