Module catalogue 2023/2024
| 285-5 | Digital Simulation (Lab work) | Materials and Mechanics - Apprenticeship | S7 | ||||||
|---|---|---|---|---|---|---|---|---|---|
| Lessons : 4 h | TD : 0 h | TP : 16 h | Project : 0 h | Total : 20 h | |||||
| Co-ordinator : Gislaine Marie | |||||||||
| Prerequisite | |
|---|---|
| Resistance of Materials 1 and 2 Introduction to the Finite Element Method Numerical Simulation 1 practical work |
|
| Course Objectives | |
| Deepen the skills acquired during the courses on finite element method and numerical simulation work by studying advanced mechanical problems (implicit and explicit nonlinear simulations). | |
| Syllabus | |
| Non renseigné | |
| Practical work (TD or TP) | |
| TP taking place under ANSYS (Workbench 17.1) - TP1: Study of the coefficient of concentration of stress Kt - TP2: Frontier of the elastic domain of Von Mises - TP3: Study of elastoplastic materials in the case of an oligocyclic fatigue loading - TP4: Study of a bridge in transient analysis, modal analysis and coupled then redesign. - TP5: Mesh: Advanced Methods and Mesh Options - TP6: Topological optimization - TP7: Fall, shock, shaping ... The use and implementation of the explicit calculation |
|
| Acquired skills | |
| Basic notions of elastoplastic behavior. Finite element method, finite element calculation software, elastoplastic constitutive laws. Perform a topological optimization with finite element software To set up an implicit simulation and an explicit simulation, to know when to privilege one or the other of the two methods. |
|
| Bibliography | |
| Non renseigné |
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