A glimpse into my journey of building, learning, and innovating.
I’ve worked on many projects over the years, but these are the ones that shaped my thinking the most. Many are built on open-source ideas and experimental engineering, so if something interests you, feel free to explore the details or even contribute 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.
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6-DOF Stewart Platform
Built a custom Stewart Platform for motion simulation with six degrees of freedom.
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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.
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