ABSTRACT
Though Nanobots may be still under research and are not yet implemented in practice, they show promising signs to be the future of the Medical Industry. Robotics is already revolutionizing the medical industry, and it's just a matter of time before micro and nanobots become a part of our lives.
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This project aims at developing a nanobot that could potentially cure cancer. The main issue with the nanobots is that there is not a single feasible method to track or control them. thus, the aim of this project mainly focuses on developing a mechanism for solving there two issues and make our design feasible enough to be implemented.
MY WORK
For this project, the design was inspired from that of an eel. Eels employ a method of twisting and wriggling their body through the fluid for forward propulsion
The project is aimed at designing a nanobot that could effectively help cure cancer.
As this is still an area under research, this project to overcome the challenges present in providing a feasible design for such a nanobot.
The basic design was inspired by biomimicry of an eel, and designed it using Solid Works, and used Abaqus to conduct analysis on our design.
Simulated the real-life environment as per the human blood vessel and conducted the flow behavior of the nanobot
