Vibration engineering covers two-degree-of-freedom or multidegree-of-freedom systems. Furthermore, the course also covers
a finite element method to get natural frequencies and vibration mode shapes.
Students derive and solve differential equations of motion of two-degree-of-freedom or multidegree-of-freedom systems.
Students make programs for solving those systems using MATLAB based on a finite element method.
Students make programs for solving those systems using MATLAB based on a finite element method.
- To understand the derivation and solution of differential equations of motion in two-degree-of-freedom systems
- To get natural frequencies and vibration mode shapes in two-degree-of-freedom systems
- To understand the derivation and solution of differential equations of motion in multidegree-of-freedom systems
- To understand a finite element method and to create a computer program to get natural frequencies and vibration mode shapes in multidegree-of-freedom systems
| Class schedule | HW assignments (Including preparation and review of the class.) | Amount of Time Required | |
|---|---|---|---|
| 1. | Two-degree-of-freedom systems (translational degrees of freedom system) | To read two-degree-of-freedom systems (translational degrees of freedom system) | 190minutes |
| 2. | Two-degree-of-freedom systems (translational and rotational degrees of freedom system) | To read two-degree-of-freedom systems (translational and rotational degrees of freedom system) | 190minutes |
| 3. | Two-degree-of-freedom systems for forced vibration | To read two-degree-of-freedom systems for forced vibration | 190minutes |
| 4. | Dynamic vibration absorber | To read dynamic vibration absorber | 190minutes |
| 5. | Truss (stiffness matrices) | To read truss (stiffness matrices) | 190minutes |
| 6. | Truss (equation of motion of the complete system) | To read truss (equation of motion of the complete system) | 190minutes |
| 7. | Truss (incorporation of bounfary conditions) | To read truss (incorporation of bounfary conditions) | 190minutes |
| 8. | Rahmen (stiffness matrices) | To read rahmen (stiffness matrices) | 190minutes |
| 9. | Rahmen (equation of motion of the complete system) | To read rahmen (equation of motion of the complete system) | 190minutes |
| 10. | Rahmen (3D structures) | To read rahmen (3D structures) | 190minutes |
| 11. | Mass matrices | To read mass matrices | 190minutes |
| 12. | Commercially available finite element software (NASTRAN) | To read a commercially available finite element software (NASTRAN) | 190minutes |
| 13. | Programing with MATLAB | To create a computer program to get natural frequencies and vibration mode shapes in multidegree-of-freedom systems based on a finite element method | 190minutes |
| 14. | Special lecture | To investigate vibration engineering in the automobile industry | 190minutes |
| Total. | - | - | 2660minutes |
| Report | Total. | |
|---|---|---|
| 1. | 25% | 25% |
| 2. | 25% | 25% |
| 3. | 25% | 25% |
| 4. | 25% | 25% |
| Total. | 100% | - |
The score will be counted from 100 points by the report. The pass criteria are 60 points. The threshold of 60 points is to
create a computer program with MATLAB for a beam element in two translational and one rotational degrees of freedom (three
elements and four nodes) and to obtain natural frequencies and vibration mode shapes.
| ways of feedback | specific contents about "Other" |
|---|---|
| Feedback in the class | 電子メール,対面の面談,オンライン(カメラON)などでも対応する. |
S. S. Rao, Mechanical Vibrations
Hayato Togawa, A finite element method
Hayato Togawa, A finite element method
- If you have any questions, please contact during office hours. I will be holding office hours (Zoom) on Fridays from 5-6 PM(JST).
Apr. 9 - Jul. 16.
- Course that cultivates a basic problem-solving skills
| Work experience | Work experience and relevance to the course content if applicable |
|---|---|
| N/A | N/A |
- 4.QUALITY EDUCATION
- 9.INDUSTRY, INNOVATION AND INFRASTRUCTURE
Last modified : Thu Sep 14 04:04:46 JST 2023