Lets achieve great things
Class Projects
Reports, Drawings, Rendered Photos from classwork at the University of Florida
Solar Panel
Spring 2016
During my freshmen year (Spring 2016), the final course project was to design a rotating system for a solar panel. This was my first true engineering project.
DML Robot
Summer 2017
This robot was the class project for EML2322L Design and Manufacturing Lab (DML) (Summer 2017). This robot's objective was to pick up tennis balls and launch them at water bottles. Multiple skills were used/learned in this project from Lathing and Milling to Welding and sheet-metal work. Our team was able to knock down all 5 as seen in the video.
Mechanics of Materials Lab
Spring 2018
This is a junior level course in Mechanical Engineering track at the University of Florida. Within the class, multiple experiences are performed such as calculating uncertainty within voltage channels, calculating diameters using differential voltage, mass utilizing a cantilever beam, pressure vessel testing, and beam bending. The 4 reports and Final Project are found in the button below.
Elevator
Spring 2018
This elevator was the final project for EML3005 Mechanical Design 1 (Spring 2018), the design is for a purely mechanical elevator where an Elijah Otis Safety Slack device was utilized. The majority of the Solidworks and the Safety section was my responsibility, I aided in other sections as well.
Controls Lab
Fall 2018
This is a senior level course in the Mechanical Engineering track at the University of Florida. Within this class, concepts from control theory are mixed with dynamic systems such as a flywheel and a multi-axis rotating arm. The final project was creating an autonomous air hockey system. The 4 reports and Final Project are found in the button below.
Integrated Product Process and Design
Fall 2018 - Spring 2019
This interdisciplinary senior capstone program through the college of Engineering allows students to work on industry sponsored project and work through the engineering design process from problem statement through prototype. I was a member of the Northrop Grumman "Autonomous Drone Refueling" project where a autonomous drone landing station was designed/prototyped with a budget of $2,000 to decrease the time it takes to swap batteries out of a drone by 25% when compared to a manual switch.
