A glimpse into my journey of building, learning, and innovating.
I've worked on numerous projects over the years, but these are the ones I'm most proud of. Many involve open-source designs and innovations, so if something catches your eye, feel free to explore the details and contribute any ideas for improvements.
Hemodynamic study in Patient-Specific Cerebral Aneurysms
Research focusing on understanding how human body motion influences blood flow dynamics in cerebral aneurysms using Particle Image Velocimetry (PIV).
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Al6061-MWCNTs Nano Composites
Development aluminum alloy composites using multi-directional forging techniques.
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Modeling Patient-Specific Aneurysms
Developed patient-specific aneurysm models using medical imaging data and 3D printing techniques for fluid dynamic studies.
github.com
6-DOF Stewart Platform
Built a custom Stewart Platform for motion simulation with six degrees of freedom.
github.com
Aneurysm-Phantom-Fabrication
Fabricated optically clear aneurysm phantom models for in-vitro blood flow experiments.
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Universal Robotic Arm Simulation
Integrated UR10e robotic arm to replicate human head and body motion for biomechanical studies.
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Pulsatile-Flow-Loop
Designed a pulsatile flow loop to simulate physiological blood flow conditions for PIV studies.
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Formula Car Design
Design, analysis, and fabrication of a Formula race car, focusing on performance optimization.
github.com