3D MODELS
Fan Duct:
This fan duct is designed to enhance cooling by redirecting airflow from a central fan to specific sections of a PCB inside of an enclosed environment. By leveraging Bernoulli’s principle, it optimizes airflow dynamics to create a directed, high-velocity air stream that efficiently dissipates heat. The duct directs air precisely where it’s needed, improving thermal management and preventing overheating. Its streamlined design ensures minimal footprint and maximum cooling performance without needing to alter the existing mechanical design, making it an ideal solution for high-performance electronics that require reliable, efficient temperature regulation.
Fan Holder:
This fan holder features captured bolts for easy, secure installation, streamlining the setup process. Designed for PCB cooling, it is designed to mount to existing hardware, allowing air circulation in an enclosed environment.
Lego man:
This 3D model project features a Lego man designed for experimenting with concrete casting. As a side project I have been experimenting with various techniques of casting concrete into unique shapes.
Cakewalk:
I designed this battle bot for a competition that I organized among friends. Utilizing advanced materials such as carbon fiber, aluminum, and TPU(Shore 95A) this serves as a test bench for future battle bot designs.
Audio equalizer shell:
This is the case for my audio equalizer project. It is designed to fit the custom PCB I designed for my audio equalizer. Minimizing the footprint of an already large PCB was the main goal of this case. Due to it’s large size, it had to be 3D printed in two separate pieces and bonded together.
Dropper post lever:
This is the remote section to my senior project which is a electronic wireless dropper post meant for mountain biking. This lever features a ergonomic fit that adjusts in the X and Z plane for a more customized fit.