Mechanical Engineering Student | Passed FE Exam
My Projects
Designing and prototyping a compact, automated mechanism targeting a full-deck shuffle time of under 90 seconds across variable card sizes.
A custom-engineered, remote-controlled manipulation device integrating SolidWorks linkages with microcontrollers for precision transport of various geometries .
A custom Python-based topology optimization algorithm that utilizes the SIMP method to minimize structural compliance and material weight.
About Me
As a Mechanical Engineering student at the University of Houston (Expected Dec 2026), I concentrate on automated systems, mechatronics, and computational optimization. My technical competency in fundamental areas such as Mechanics of Materials and Thermodynamics is supported by my successful completion of the Fundamentals of Engineering (FE) Mechanical Exam in April 2026.
My engineering philosophy is defined by an emphasis on durable physical design. Whether optimizing load-bearing structures through computational solid mechanics or developing high-speed kinematics for mechatronic applications, my priority is translating mathematical theory into dependable hardware. I move beyond idealized SolidWorks assemblies to account for manufacturing tolerances and actual physical constraints.
Outside of performing kinematic calculations or CAD modeling, I spend my time refining prototypes on my Bambu P1S 3D printer, engaging in weekend Dungeons & Dragons campaigns, or reading novels by Brandon Sanderson.