1. To perform mechanical simulation using two software in this exercise,
(1) Dynamical simulation for functional modeling: Matlab/Simulink,
(2) Structural analysis for structural modeling: Femap with NX nastran.
2. To exercise about the subjects which were taken out with the lecture of the applied design.
3. Reports include analysis and engineering consideration to analysis result.
(1) Dynamical simulation for functional modeling: Matlab/Simulink,
(2) Structural analysis for structural modeling: Femap with NX nastran.
2. To exercise about the subjects which were taken out with the lecture of the applied design.
3. Reports include analysis and engineering consideration to analysis result.
To acquire the simulation modeling technology and the capability to predict for the behavior of mechanical structure to the
mechanics problem.
- Can learn a usage of a simulation software for understanding the behavior of mechanical structure.
- Can acquire simulation modeling and analysis technology through a lecture and an exercise
- Can understand the V&V process for the engineering simulation
| Class schedule | HW assignments (Including preparation and review of the class.) | Amount of Time Required | |
|---|---|---|---|
| 1. | Introduction of Matlab/Simulink | Looking over the syllabus of this class | 30minutes |
| 2. | Modeling and simulation by Matlab/Simulink: sine-wave and a composite waveform | Making report of this subject | 45minutes |
| 3. | Modeling and simulation by Matlab/Simulink: catch simulation | Making report of this subject | 45minutes |
| 4. | Modeling and simulation by Matlab/Simulink: 1st-order lag | Making report of this subject | 45minutes |
| 5. | Modeling and simulation by Matlab/Simulink: 2nd-order lag | Making report of this subject | 45minutes |
| 6. | Modeling and simulation by Matlab/Simulink: mass spring and damping system | Making report of this subject | 45minutes |
| 7. | Modeling and simulation by Matlab/Simulink & Amesim: step-climbing | Making report of this subject | 45minutes |
| 8. | Modeling and simulation by Matlab/Simulink: step-climbing | Making report of this subject | 45minutes |
| 9. | Introduction of structual analysis by Femap with NX nastran | Making report of this subject | 45minutes |
| 10. | Structual analysis by NX nastran: tensile load analysis | Making report of this subject | 45minutes |
| 11. | Structual analysis by NX nastran: perforated plain plate of tensile and compress load analysis | Making report of this subject | 45minutes |
| 12. | Structual analysis by NX nastran: I-type structure bending analysis (Shell & Solid elements) | Making report of this subject | 45minutes |
| 13. | V&V: experiment of large deformation problem | Making report of this subject | 50minutes |
| 14. | V&V: simulation of large deformation problem by NX nastran | Making report of this subject | 50minutes |
| Total. | - | - | 625minutes |
| Dynamical simulation | FEM | Total. | |
|---|---|---|---|
| 1. | 20% | 20% | 40% |
| 2. | 20% | 20% | 40% |
| 3. | 20% | 20% | |
| Total. | 40% | 60% | - |
Carrying out comprehensive evaluation using reports (dynamical simulation and FEM) of exercise subject and exercise behavior.
If the report consisted of subject’s content, analysis procedure and method, consideration, and conclusion, moreover the reason
is described through understanding exercises explanation, Those reports will be evaluated as 60%.
- Course that cultivates an ability for utilizing knowledge
- Course that cultivates a basic problem-solving skills
| Work experience | Work experience and relevance to the course content if applicatable |
|---|---|
| Applicatable | To perform syllabus planning based on experience and needs of our company period, and setting an exercise problem to obtain CAE technical ability. |
Last modified : Thu Mar 21 14:54:07 JST 2019