1. Computer simulations in industry, CAD / CAM / CAE systems.
2. Finite element method and its use in computer simulations.
3. Basics of working with CAD / CAM / CAE systems Inventor and NX.
4. Creation of a computational model in CAE for simulation of strength analysis.
5. Definition of a solid part in computer simulation.
6. Definition of material and material linearity.
7. Definition of boundary conditions in computer simulation.
8. Interpretation and evaluation of strength analysis simulation results.
9. Dynamic stiffness and computer simulation of modal analysis.
10. Shape optimization of a technical object in terms of static stiffness.
11. Shape optimization of a technical object in terms of dynamic stiffness.
12. Basics of computer simulation of CAM production.
13. Current trends in branch.
14. Current trends in branch.
2. Finite element method and its use in computer simulations.
3. Basics of working with CAD / CAM / CAE systems Inventor and NX.
4. Creation of a computational model in CAE for simulation of strength analysis.
5. Definition of a solid part in computer simulation.
6. Definition of material and material linearity.
7. Definition of boundary conditions in computer simulation.
8. Interpretation and evaluation of strength analysis simulation results.
9. Dynamic stiffness and computer simulation of modal analysis.
10. Shape optimization of a technical object in terms of static stiffness.
11. Shape optimization of a technical object in terms of dynamic stiffness.
12. Basics of computer simulation of CAM production.
13. Current trends in branch.
14. Current trends in branch.