1. Characteristics of transported materials according to the FEM standard. Piece materials. Mechanical properties of the material.
2. Basic concepts in material disintegration.
3. Disconnection, disconnectability and degree of disconnection. Basic types and methods of mechanical disconnection.
4. Disconnection theory. Kick's hypothesis (volume). Rittinger's hypothesis (surface). Kick-Standler hypothesis. Bond hypothesis. General differential equation of decoupling.
5. Crushing machines. Division and use of crushing and grinding machines.
6. Cone crusher. Basic parameters of sharp-angle cone crushers. Symons crusher calculation.
7. Roller crusher. Parameters of roller crusher.
8. Jaw crusher. Jaw crusher calculation.
9. Ball mill. Calculation and design of a ball mill. Calculation of the ball waste angle.
10. Critical speed of the ball mill. Optimal ball mill speed. Working speed of the ball mill. Spherical motion modes by speed.
11. Pearl mill. Hammer and impact crusher. Hammer / impact crusher design.
12. Material classification. Classification of sorting aggregates. Vibrating screens.
13. Movement of material along networks with rectilinear motion (β = 0 °, β <> 0). Movement of material on a network with rotary motion (β = 0 °, β <> 0).
14. Special sorters.
2. Basic concepts in material disintegration.
3. Disconnection, disconnectability and degree of disconnection. Basic types and methods of mechanical disconnection.
4. Disconnection theory. Kick's hypothesis (volume). Rittinger's hypothesis (surface). Kick-Standler hypothesis. Bond hypothesis. General differential equation of decoupling.
5. Crushing machines. Division and use of crushing and grinding machines.
6. Cone crusher. Basic parameters of sharp-angle cone crushers. Symons crusher calculation.
7. Roller crusher. Parameters of roller crusher.
8. Jaw crusher. Jaw crusher calculation.
9. Ball mill. Calculation and design of a ball mill. Calculation of the ball waste angle.
10. Critical speed of the ball mill. Optimal ball mill speed. Working speed of the ball mill. Spherical motion modes by speed.
11. Pearl mill. Hammer and impact crusher. Hammer / impact crusher design.
12. Material classification. Classification of sorting aggregates. Vibrating screens.
13. Movement of material along networks with rectilinear motion (β = 0 °, β <> 0). Movement of material on a network with rotary motion (β = 0 °, β <> 0).
14. Special sorters.