ProjectsAll My Projects.
Miscellaneous Projects: Professional Exploration
Discover a diverse array of achievements, showcasing my ability to navigate successfully through a multitude of technical and creative domains. Each of these projects represents a unique immersion into various aspects of engineering, modeling, simulation, and programming. From mechanical design to software development, through manufacturing and optimization, each initiative highlights my versatility and commitment to excel in multidisciplinary professional environments.
Designing a horse riding simulator
Studied the kinematics and dynamics of the simulator and designed mechanical components in 3DEXPERIENCE.
3D modeling of bicycle transmission mechanism
Created 3D models of bicycle transmission system components in 3DEXPERIENCE using skeleton and parametric modeling techniques.
Simulation of bike gear resistance
Simulated the static stress on the pedal, automated the execution of simulations using Python, and analyzed the influence of mesh quality on the results.
Simulation of fire propagation in a two-phase compartment with OpenFOAM
Studied the structure of the OpenFOAM software, prepared the case study directory, refined the mesh in the area of interest, and investigated the influence of wall openings on flame shape.
Design and fabrication of a Home-Trainer
Created 3D models, studied the mechanical resistance of the Home-Trainer, and manufactured it using arc welding.
Development of a video game using Unity
Utilized C# code to manipulate 3D objects within the environment, implemented character movements using a state machine, and generated animations using 3D Blender.
Multi-physics modeling of a robot using Modelica
Computed the direct and inverse geometric models of the robot. Modeled electrical and mechanical components, and simulated scenarios of robot dynamics.
Optimization of the topology of the KUKA robot arm
Examined load scenarios on the KUKA Robot arm, created a 3D model of it, and refined the parametric 3D design to achieve a manufacturable component.
Designing of a pusher / cam contact
Computed the kinematics and dynamics of the pusher cam contact, modeled the material behavior of the contact using Hertz theory, and determined the film thickness for fluid power transmission using the EHD model.