1. Bonding in non-metallic inorganic materials (NAM)
Structure of atoms. Solids with ionic bonding and covalent bonding. Intermediate forces. Structure of NAM - Crystal Structures. Binary ionic compounds. Composite crystalline structures.

2. Structural defects and structure of glass NAMs
Structural defects - Spot defects: stoichiometric, non-stoichiometric, internal. Notation of point defects. Linear defects. Planar defects. Creating glasses. Models of glass structure. Structure of oxide glasses.

3. Phase diagrams of selected NAMs
Binary and ternary diagrams of significant NAMs. Mixability of the phase-intermediate compounds-solid NAM solutions. Chemical Reactions in NAM - Kinetics of heterogeneous reactions. Sintering of NAM

4. NAM microstructure
Microstructural characteristics, Methods, Microstructure vs properties, Typical microstructures: advanced ceramics, glass, Fractography

5. Physical and thermal properties, mechanical properties
Density. Porosity. Melting temperature. Thermal capacity and conductivity. Thermal expansion. Temperature shock. Flexibility. Strength. Hardness. Fracture toughness. Ductile vs brittle behavior.

6. Strengthening and toughening of NAM
Influence of external conditions on the properties of NAM. Self-reinforcing ceramics. Transformation hardening. Mechanisms of hardening. Creep. Static fatigue. Chemical effects. Mechanically induced defects. Thermal shock.

7. Electron and ion conductivity, dielectric properties
NAM band theory. Conductors, non-conductors, semiconductors. Concentration of charge conductors and their mobility. Defects - migration of ions. Ionic conductivity. Solid electrolytes and their applications. Dielectric properties. Polarization mechanisms. Dielectric losses. Capacitors and insulators.

8. Magnetic properties and optical properties of NAM
Para-, ferro-, antiferro- and ferrimagnetism. Magnetic domains and hysteresis curve. Types of magnetic NAM. Optical properties – absorption, refractive index, dispersion, transparency, color.

9. Oxide, carbide and nitride NAM
Typical representatives of NAM. Fabrication. Properties. Use.

10. Polymers
Basic terms, history, nomenclature, chemical composition of polymers, structure of polymers, molecular weight and its determination, basic properties of polymers, polyreaction.

11. Basics of thermodynamics.
Classification of thermodynamic systems, variables and relationships. Equilibrium criteria. First and second thermodynamic theorem, types of energy in systems, entropy. Third thermodynamic theorem.

12. Thermodynamic relations and variables
Thermodynamic potentials of closed systems. Criterion and conditions for derivation of thermodynamic equilibrium. Thermochemistry. Heat capacities. Dependence of heat capacities, reaction heat, entropy and Gibbs energy on temperature. Changes in Gibbs energy in chemical reactions. Application of thermodybamic calculation on ceramic systems.

13. Phase equilibria
Single- and multi-component homogeneous systems (solutions). Chemical potential. Gibbs phase rule. Single-phase phase diagrams in (p, T) space. Clapeyron and Clausius-Clapeyron equations. Multi-component systems: expression of composition, partial molar variables, chemical potential. Ideal solutions - gases, liquids. Van't Hoff isotherm equilibrium constant and application of thermodynamic calculations to ceramic systems.