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Design and Analysis of Solidworks and Ansys using the Replacement of robotic body parts in Humans.

K.Karthikeyan1, V.Sugan2.

1. Department of Mechanical Engineering, Mahendra Engineering College.

2.Associate Professor, Department of Mechanical Engineering, Mahendra Engineering College

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Abstract – The replacement of robotic body parts in the human beings willing to done in the necessary of every year people lost their human parts in various aspects like accident or injury or surgical due to any multiple causes such as blood vessel disease, cancer, infection, excessive tissue damage etc. The paper is all about design and analysis of AI, Solid works and Ansys using the replacement of robotic part in humans. Background research was conducted to ensure we were making well informed decisions are prosthetic devices, non-anthropromorphic devices, prosthetic hand with myoelectric sensor, sensing technology, object recognition. And main aim of this research would be upgraded version of artificial heart Investigating the biomechanical behaviour of a soft artificial heart is a hard task as such things are very complicated in terms of both material properties and geometry. Numerical simulation and investigation of the artificial heart were implemented using Solid Works 17 and ANSYS15.7, with a. The simulation results showed that as maximum levels of absolute pressure were applied on the ventricles and air pressurized chambers, the performance of the heart remained secure. The results also showed that strain energy, total deformation, maximum principal elastic strain, stress and fatigue safety factors, and fatigue life all reached their SIBSTAR103Twithpolyetherimide/silicone(PSN4)Nano-composite elastomers.

Key Words:  -Prosthetic devices, Artificial hand, Soft Artificial hand, Solid works Modelling, Ansys fluid fluent flow(CFX)Simulation, silicon based non-composites, silicon rubber(elastomer), zinc Dimathacrylate, hydroxyapatite.