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Innovations in prosthetic foot design enhancing durability, functionality and comfort through PLA composite filament 3D printing

Lara E. Yousif (Department of Materials Engineering, University of Technology – Iraq, Baghdad, Iraq, and)
Mayyadah S. Abed (Department of Materials Engineering, University of Technology – Iraq, Baghdad, Iraq, and)
Aseel B. Al-Zubidi (Department of Materials Engineering, University of Technology – Iraq, Baghdad, Iraq, and)
Kadhim K. Resan (Faculty of Engineering, Mustansiriyah University, Baghdad, Iraq)

Pigment & Resin Technology

ISSN: 0369-9420

Article publication date: 12 April 2024

58

Abstract

Purpose

The number of people with special needs, including citizens and military personnel, has increased as a result of terrorist attacks and challenging conditions in Iraq and other countries. With almost 80% of the world’s amputees having below-the-knee amputations, Iraq has become a global leader in the population of amputees. Important components found in lower limb prostheses include the socket, pylon (shank), prosthetic foot and connections.

Design/methodology/approach

There are two types of prosthetic feet: articulated and nonarticulated. The solid ankle cushion heel foot is the nonarticulated foot that is most frequently used. The goal of this study is to use a composite filament to create a revolutionary prosthetic foot that will last longer, have better dorsiflexion and be more stable and comfortable for the user. The current study, in addition to pure polylactic acid (PLA) filament, 3D prints test items using a variety of composite filaments, such as PLA/wood, PLA/carbon fiber and PLA/marble, to accomplish this goal. The experimental step entails mechanical testing of the samples, which includes tensile testing and hardness evaluation, and material characterization by scanning electron microscopy-energy dispersive spectrometer analysis. The study also presents a novel design for the nonarticulated foot that was produced with SOLIDWORKS and put through ANSYS analysis. Three types of feet are produced using PLA, PLA/marble and carbon-covered PLA/marble materials. Furthermore, the manufactured prosthetic foot undergoes testing for dorsiflexion and fatigue.

Findings

The findings reveal that the newly designed prosthetic foot using carbon fiber-covered PLA/marble material surpasses the PLA and PLA/marble foot in terms of performance, cost-effectiveness and weight.

Originality/value

To the best of the author’s knowledge, this is the first study to use composite filaments not previously used, such as PLA/wood, PLA/carbon fiber and PLA/marble, to design and produce a new prosthetic foot with a longer lifespan, improved dorsiflexion, greater stability and enhanced comfort for the patient. Beside the experimental work, a numerical technique specifically the finite element method, is used to assess the mechanical behavior of the newly designed foot structure.

Keywords

Citation

Yousif, L.E., Abed, M.S., Al-Zubidi, A.B. and Resan, K.K. (2024), "Innovations in prosthetic foot design enhancing durability, functionality and comfort through PLA composite filament 3D printing", Pigment & Resin Technology, Vol. ahead-of-print No. ahead-of-print. https://doi.org/10.1108/PRT-10-2023-0092

Publisher

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Emerald Publishing Limited

Copyright © 2024, Emerald Publishing Limited

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