Our offer of subjects for education Ph.D. students in English
Ing. Renata Dvořáková, CSc.
Fundamentals of the Machining Process
Mechanics of Chip Formation and Forces,
Power and Stresses in Machining
Tool Wear and Tool Life
Traditional Machining Processes
Turning
Milling
Drilling, Reaming, Countersinking, Counterboring
Broaching, Shaping and Slotting
Grinding, Honing and Lapping
Nontraditional Machining Processes
Electrical Discharge Machining (EDM)
Laser Beam Machining (LBM)
Waterjet Machining (WJM)
kpt. Ing. David Kusmič, Ph.D.
Corrosion
Theory of corrosion process, corrosion factors
Type of corrosion
Corrosion testing
Polarization curves, passivation
Corrosion control
Plasma Technology and Nitrogen Absorbing Technology”
Methodes of chemical-heat treatment
Nitridation – types and priciples of nitridation
Plasma nitridation – principles, nitriding equipment, regulation of precess
Evaluation of nitride layers, nitridation to increasing of hardness, wear resistence and fatigue limit.
Plasma nitriding to increasing of corrosion resistance, corrosion testing and evaluation
Prof. Ing. Vladimír HORÁK, CSc.
Hydromechanics
Fundamental terms and laws of hydromechanics
Hydrostatics
Flow of ideal fluid
Flow of viscous fluid
Fluid flow with energy supply
Real fluid discharge
Momentum Change Theorem
Thermodynamics
State of matter and thermodynamic properties
The first and second law of thermodynamics
Reversible and irreversible processes
Compressors
Fundamentals of combustion
Cycles of combustion engines
Thermodynamics of two-phase systems
Thermodynamics of moist air
Chemical kinetics
Heat transfer
Advanced Thermodynamics
Thermodynamic properties and functions of real gases
First and second law of thermodynamics for special systems
Thermodynamics of phase changes
Thermo-chemistry and combustion
Chemical kinetics
Heat and mass transfer
Mathematical modeling and CFD systems
prof. Ing. Jaromír Kadlec, CSc.
Experimental Methods
Testing of materials chemical composition.
Glow discharges in analytical spectroscopy,
electron beam based spectroscopy methods,
light based testing methods (visible, UV, IR).
Evaluation of materials structure.
Light and electron microscopy, confocal microscopy.
Thermal, electrical and magnetic methods. Thermal and dilatometric analyses, resistometry, magnetometry.
Properties testing of nanostructured materials and composites. Physical, electrical and mechanical tests of nanostructured materials and composites.
Surface Technologies
Coating technologies of layers and thin films.
Technologies of surface treatment (incl. duplex and multiplex technologies).
Surface / chemical analysis of layers and thin films.
Structure of layers and thin films. Models of structure.
Selected physical and mechanical properties of layers and thin films and their evaluation.