Biomimetics (Sep 2023)

Contributions to the Dynamic Regime Behavior of a Bionic Leg Prosthesis

  • Marius-Valentin Drăgoi,
  • Anton Hadăr,
  • Nicolae Goga,
  • Florin Baciu,
  • Amado Ștefan,
  • Lucian Ștefăniță Grigore,
  • Damian Gorgoteanu,
  • Cristian Molder,
  • Ionica Oncioiu

DOI
https://doi.org/10.3390/biomimetics8050414
Journal volume & issue
Vol. 8, no. 5
p. 414

Abstract

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The purpose of prosthetic devices is to reproduce the angular-torque profile of a healthy human during locomotion. A lightweight and energy-efficient joint is capable of decreasing the peak actuator power and/or power consumption per gait cycle, while adequately meeting profile-matching constraints. The aim of this study was to highlight the dynamic characteristics of a bionic leg with electric actuators with rotational movement. Three-dimensional (3D)-printing technology was used to create the leg, and servomotors were used for the joints. A stepper motor was used for horizontal movement. For better numerical simulation of the printed model, three mechanical tests were carried out (tension, compression, and bending), based on which the main mechanical characteristics necessary for the numerical simulation were obtained. For the experimental model made, the dynamic stresses could be determined, which highlights the fact that, under the conditions given for the experimental model, the prosthesis resists.

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