1. Loading of machine parts (statically, dynamically).
2. Basic properties of materials. Permissible load.
3. Connecting and moving screws, division. Pitch angle, self-locking.
4. Connecting screws - calculation, choice of material.
5. Connecting screws - tightening torque, efficiency, normalization.
6. Shaft and hub connections - division and use.
7. Shaped joints - grooved, polygonal.
8. Power connections - pressed and clamped connections. Basic calculations.
9. Welded, riveted and glued joints. Basic calculations of statically difficult welded joints.
10. Pins, axes, shafts. Static calculation of shafts.
11. Rolling and plain bearings. Basic calculation. Bearing, lubrication and sealing.
12. Distribution of transfers. Calculation of chain and belt transmission.
13. Gear transmissions - spur gears, their basic dimensions. Involuntary.
14. Correction of gears, slips, efficiency, force. Basics of design calculation of gears.
2. Basic properties of materials. Permissible load.
3. Connecting and moving screws, division. Pitch angle, self-locking.
4. Connecting screws - calculation, choice of material.
5. Connecting screws - tightening torque, efficiency, normalization.
6. Shaft and hub connections - division and use.
7. Shaped joints - grooved, polygonal.
8. Power connections - pressed and clamped connections. Basic calculations.
9. Welded, riveted and glued joints. Basic calculations of statically difficult welded joints.
10. Pins, axes, shafts. Static calculation of shafts.
11. Rolling and plain bearings. Basic calculation. Bearing, lubrication and sealing.
12. Distribution of transfers. Calculation of chain and belt transmission.
13. Gear transmissions - spur gears, their basic dimensions. Involuntary.
14. Correction of gears, slips, efficiency, force. Basics of design calculation of gears.