I'm a driven and motivated mechanical engineer located in the Northeastern US. At Clarkson University, I studied mechanical engineering with an emphasis on electromechanical systems. Since graduating, I've been building my skills by developing a wide range of consumer and industrial products.
Computer-Aided Design (SolidWorks, Fusion 360, Autodesk Inventor)
Rapid Prototyping and Fabrication (3D Printing, Laser Cutting, CNC Operation)
Firmware and Data Analysis Programming (Arduino/C, Python, MATLAB)
Minor in Electrical Engineering & Mathematics
Participated in group brainstorms to create novel solutions for a variety of consumer and industrial products.
Converted industrial design sketches and models to functioning parts and assemblies using SolidWorks.
Designed parts for various manufacturing methods such as machining, injection molding, and die casting.
Used statics, strengths, FEA, python scripts, and rapid prototyping to validate and optimize designs.
Coordinated with electrical engineering contractors, vendors, and factories to facilitate manufacturing.
Performed pipe stress analysis using strengths and statics techniques to determine remaining service life.
Automated stress calculations using Excel and VBA to analyze 110+ components.
Wrote a technical evaluation to update legacy procedures to meet current standards.
Used computerized management systems to view technical drawings and documents.
Responsible for daily operation, material inventory, drafting purchase proposals, and creating instructional content about the lab equipment.
Managed coworker tasks and conducted interviews for job applicants.
Assisted students with various design challenges and provided safety training.
Created 3D printable jigs and fixtures to facilitate (mass) production of wooden crates.
Cut material to desired size using a table saw and miter box, assembled using fixtures and pneumatic nail guns, silk-screen printed company logo onto material.
Delivered finished product to retailer, managed invoices, and tracked hours worked.
Repaired and performed routine maintenance on bicycles for a bike share program.
Tracked inventory and users using Google Sheets and Forms.
Led conceptual design with consideration for fabrication of robotic arms and end effectors for an underwater remotely operated vehicle.
Designed mechanical components and assemblies using SolidWorks.
Programmed and simulated inverse kinematic control using MATLAB.
Developed multiple remotely controlled robots to inspect inaccessible areas.
Successfully designed to climb a 40’ vertical wall, fit under a 5” gap, transmit several camera feeds, and deliver smoke and helium to detect vacuum leaks along the wall.
Each robot designed and fabricated in a time pressured environment of only two days.
Lead in researching hardware and software used to construct a mobile ice traversing robot.
Head of design for a robot tasked with meeting various constraints such as size, weight, maneuverability, and semi-autonomy.
Effectivity used Arduino microcontrollers, Inventor, and Mastercam to complete design.
Used routers, milling machines, laser cutters, and 3D printers to fabricate components.
Organized team meetings and competitions which included recruitment, scheduling, brainstorming, and communication.
Lead in robot conceptual design and fabrication.
Liaison between the fabrication and programming teams, as well as with advisors.
Led the team to four consecutive NY State Championship victories and world championship appearances.
Helped families learn and use woodworking skills necessary to build a boat.
Presented our robots and game challenges to the public to promote STEM education.
Assisted in installing and removing boating docks from the Oswego Maritime Foundation.
Facilitated the transfer of food from the kitchen to the consumer, collected and sorted dishes.