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FEA
The course is based on the ANSYS software package
Course content
| Exercise number | Instruction | Supporting materials |
| 1. Introduction | Presentation_-_laboratory_1 | Template.docx |
| 2. Introduction to the FEA simulation software. Principles of geometrical models preparation |
Geometry | |
| 3. Principles of numerical models preparation Discretization and boundary conditions |
Tasks | |
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4. Definition and implementation of material properties. |
Tasks | |
| 5. Strength of materials analysis in complex mechanical structures using contact dependencies |
Geometry | CAD_model |
| 6. Definition and range of applicability of beam model. The use of beam models in the analysis of frame structures |
Tasks | |
| 7. Definition and range of applicability of shell model. The use of shell models in the analysis of the operating conditions of frame structures. |
Tasks | |
| 8. 2D models in strength of materials numerical analysis. Plane stress, plane strain and axisymmetric models. |
Tasks | |
| 9. Shell models of pressure apparatus equipment and elements. | Tasks | |
| 10. Isotropic and anisotropic properties of materials and their influence on results of numerical strength of materials analysis. |
Tasks | |
| 11. Modal analysis - vibration characteristics (natural frequencies and mode shapes). |
Tasks | |
| 12. FEM analysis of steady state heat flow processes. | Tasks | |
| 13. Solid models of isotropic materials - strength of materials analysis of machine elements in steady state conditions. |
Tasks | |
| 14. Feasibility and optimization analysis of solutions within the given criteria. |
Tasks | |
| 15. Report of FEA numerical simulations - Results analysis. |