Mechanical Design and Digital Fabrication
Embark on a journey of Digital Fabrication and Computer-Aided Manufacturing (CAM) mastery in this specialized course. Learn to transform 3D model files (STL) into G-Code using CAM software, and explore unique settings for 3D printing, CNC mini routing, and laser cutting. Gain hands-on experience setting up and operating a 3D printer, CNC mini router, and laser mini cutter. Culminate your learning by creating a small yet intricate project—a lantern featuring a 3D-printed base, a laser-cut transparent acrylic insert with a custom design, and embedded LED strip lighting.
| Level | Course Name |
Number of sessions
|
Total training hours
|
Training Period |
| 1 | Advanced Mechanical Design with Fusion 360 |
16 for Age group 12 - 14
8 for Age group 15 - 23
|
32 for Age group 12 - 14 16 for Age group 15 - 23 |
4 month Age group 12 - 14 2 month Age group 15 - 23 |
| 2 | Robotics Mechanism Optimization and Simulation |
16 for Age group 12 - 14
8 for Age group 15 - 23
|
32 for Age group 12 - 14 16 for Age group 15 - 23 |
4 month Age group 12 - 14 2 month Age group 15 - 23 |
| 3 | Mastering Digital Fabrication in Robotics |
16 for Age group 12 - 14
8 for Age group 15 - 23
|
32 for Age group 12 - 14 16 for Age group 15 - 23 |
4 month Age group 12 - 14 2 month Age group 15 - 23 |
Levels Details
1. In-depth mechanical design using Fusion 360, emphasizing advanced techniques.
2. Collaboration on complex mechanical design projects in a team environment.
3. Applying digital fabrication techniques to create intricate mechanical structures.
1. Optimization of robotics mechanisms for efficiency and performance.
2. Simulation and testing of mechanical designs for real-world applications.
3. Integrating mechanical components seamlessly with electronics.
1. Mastery of digital fabrication using Fusion 360 for robotics projects.
2. Creating advanced mechanical structures for robotics applications.
3. Big group project: Automation and robotics project with cutting-edge mechanical design