my engineering projects
my engineering projects
conceptual 3d printer design
Designed a compact, precise, and user-friendly FDM 3D printer to address the need for affordable and accessible 3D printing solutions. Leveraged SolidWorks to model an optimized frame with integrated rack-and-pinion mechanisms for smooth and accurate motion. Conducted market research and material selection to ensure cost-effectiveness and performance, emphasizing modularity and time-efficient printing for educational and prototyping applications.
1:1 3D PRINTED Gear Box
Designed and prototyped a high-performance gearbox using FDM 3D printing, achieving effective 1:1 motion transmission under high torque and speed conditions. Created detailed visual assembly instructions, enabling successful third-party assembly and demonstrating strong communication of complex mechanical systems. The design featured precise tolerances, excellent gear meshing quality, and robustness suitable for real-world applications.
Adjustable Multi-Terrain Walking Cane Project
As part of my engineering strategies and practices course, I designed a versatile walking cane optimized for ease of use, safety, and multi-terrain functionality, including inclines and declines. The cane features a one-handed height adjustment mechanism, ergonomic handle, telescopic poles, and a durable, multi-surface base. I conducted market research to ensure compliance with ISO safety and quality standards, performed feasibility studies, and utilized black box methods to refine the design. The project also involved preparing detailed documentation on material selection and manufacturing considerations, delivering a practical and reliable solution for diverse mobility needs.