1. Chip formation mechanism.
1.1 Tension and deformation field at cutting edge.
1.2 Scheme of chip formation.
1.3 Deformation and friction at chip formation.
1.4 Secon plastic deformation and build-up creation.
2. Cutting forces and power
2.1 Cutting forces at individual machining methods.
2.2 Measuring of cutting Forces and moments.
2.3 Stability of cutting process.
3. Heat and temperature at machining.
3.1 Thermal balance at machining.
3.2 Experimentaln study of temperature and temperature fields.
3.3 Statistical equation of cutting temperature.
4. Optimization of cutting conditions.
4.1 Areas of feasible solution.
4.2 Optimization at roughing.
4.3 Optimization at finishing.
4.4 Adaptive optimization.
1.1 Tension and deformation field at cutting edge.
1.2 Scheme of chip formation.
1.3 Deformation and friction at chip formation.
1.4 Secon plastic deformation and build-up creation.
2. Cutting forces and power
2.1 Cutting forces at individual machining methods.
2.2 Measuring of cutting Forces and moments.
2.3 Stability of cutting process.
3. Heat and temperature at machining.
3.1 Thermal balance at machining.
3.2 Experimentaln study of temperature and temperature fields.
3.3 Statistical equation of cutting temperature.
4. Optimization of cutting conditions.
4.1 Areas of feasible solution.
4.2 Optimization at roughing.
4.3 Optimization at finishing.
4.4 Adaptive optimization.