1. Cutting materials and cutting speeds for CNC, machinability, performance and speed of machines, load of machines, the general terms of machining. Cutting parameters, etc.
2. Fundamentals of CNC turning and drilling, description of machinery and technology, technology options, choice of the null points, transformations of coordinate system, etc.
3. Fundamentals of CNC milling.
4. Surface CNC systems.
5. Structural design of the CNC machines.
6. Clamping systems for tools and blanks using for the CNC machines.
7. Specific tools for CNC milling (shape cutters, taps, ball mills, internal cooling, etc.).
8. Measuring workpieces and tools, using probes, tool offsets, wear and grinding tools, tool replacement.
9. Measuring systems for individual production, jigs, ...
10. Control systém of CNC machines (general description Sinumerik, Fanuc, etc.).
11. Heidenhain control system.
12. CAD / CAM systems in the plane and space, 5 axis, transforming of the coordinate systems
13. HSC - High speed cutting.
2. Fundamentals of CNC turning and drilling, description of machinery and technology, technology options, choice of the null points, transformations of coordinate system, etc.
3. Fundamentals of CNC milling.
4. Surface CNC systems.
5. Structural design of the CNC machines.
6. Clamping systems for tools and blanks using for the CNC machines.
7. Specific tools for CNC milling (shape cutters, taps, ball mills, internal cooling, etc.).
8. Measuring workpieces and tools, using probes, tool offsets, wear and grinding tools, tool replacement.
9. Measuring systems for individual production, jigs, ...
10. Control systém of CNC machines (general description Sinumerik, Fanuc, etc.).
11. Heidenhain control system.
12. CAD / CAM systems in the plane and space, 5 axis, transforming of the coordinate systems
13. HSC - High speed cutting.