In this exercise, we will digitally design a body that combines aerodynamic performance and design for a "Mini 4WD", which
is a small powered car model. In this project, the design target is limited to the outer body, the shape is digitized using
3D-CAD, and the body is manufactured with a 3D printer for resin. Finally, we will conduct a mini 4WD time trial and design
contest with the completed body and evaluate it. Through these exercises, students acquire digital design technology and manufacturing
technology using a 3D printer.
The purpose of this exercise is to learn the following.
・3D modeling technology using 3D-CAD (Fusion360)
・Manufacturing technology using 3D printers
・Evaluation of aerodynamic performance by time trial using actual aircraft
・The ability to apply the knowledge learned in related basic subjects to manufacturing, and the ability to visualize
・3D modeling technology using 3D-CAD (Fusion360)
・Manufacturing technology using 3D printers
・Evaluation of aerodynamic performance by time trial using actual aircraft
・The ability to apply the knowledge learned in related basic subjects to manufacturing, and the ability to visualize
- Ability to perform 3D modeling using 3D-CAD
- Aerodynamic performance can be evaluated by operating the Mini 4WD
- Based on the 3D-CAD data created by each person, a mini 4WD body can be manufactured with a 3D printer. Also, be able to explain the characteristics of 3D printers.
| Body design | Report | Total. | |
|---|---|---|---|
| 1. | 23% | 10% | 33% |
| 2. | 23% | 10% | 33% |
| 3. | 24% | 10% | 34% |
| Total. | 70% | 30% | - |
| Class schedule | HW assignments (Including preparation and review of the class.) | Amount of Time Required | |
|---|---|---|---|
| 1. | Outline explanation and body design | Complete the unfinished part of the body drawing | 60minutes |
| 2. | Implementation of package design | Complete the unfinished part of the shape data | 120minutes |
| 3. | Creation of shape data by 3D-CAD (Fusion360) | Complete the unfinished part of CFD | 120minutes |
| 4. | Assembly of commercially available Mini 4WD | Complete the unfinished part of body shape determination | 120minutes |
| 5. | Creating modeling data and making a body using a 3D printer | Complete the unfinished part of the body creation | 120minutes |
| 6. | Mini 4WD body finishing (polishing, painting, sticker application) | Complete the unfinished part of the wind tunnel experiment | 60minutes |
| 7. | Implementation and evaluation of Mini 4WD time trial and design contest | Complete the unfinished part in the whole range | 120minutes |
| Total. | - | - | 720minutes |
Evaluation is based on the workmanship of the mini 4WD body and package design (70%) and the report (30%). The report should
summarize the work content (body design by fusion, body assembly, modeling by 3D printer, impressions when running). A score
of 60% or higher is considered a pass.
| ways of feedback | specific contents about "Other" |
|---|---|
| Feedback in the class |
Although necessary materials will be distributed, it is desirable to purchase the following textbooks.
教科書:Fusion360マスターガイド ベーシック編 株式会社ソーテック
教科書:Fusion360マスターガイド ベーシック編 株式会社ソーテック
It is desirable to have completed Monozukuri (introduction to manufacturing), basic drafting exercises, and 3D-CAD.
- E-mail, Q & A when in the room (appointment required).
- Course that cultivates a basic problem-solving skills
| Work experience | Work experience and relevance to the course content if applicable |
|---|---|
| Applicable | I was involved in design and product development tasks at a mechanical manufacturing company. |
Last modified : Tue Sep 17 18:17:07 JST 2024