3D printed lower-limb socket for prosthetic leg / Wan Fatimatul Aifaa Wan Fadzil ... [et al.]

3D printed lower-limb socket for prosthetic leg / Wan Fatimatul Aifaa Wan Fadzil ... [et al.]

The statistics of lower limb amputation is rising across the globe and continues to be a major threat to morbidity and mortality. In Malaysia, amputation prevalence has been increasing in which several main components of service delivering aspects such as service intervention and prosthetic personne...

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Main Authors: Wan Fadzil, Wan Fatimatul Aifaa, Mazlan, Mohammad Azeeb, Hanapiah, Fazah Akhtar, Abdullah, Abdul Halim
Format: Book Section
Language:English
Published: Universiti Teknologi MARA, Kedah 2019
Subjects:
Technological change
Technological innovations
Online Access:https://ir.uitm.edu.my/id/eprint/95535/1/95535.pdf
https://ir.uitm.edu.my/id/eprint/95535/
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Institution: Universiti Teknologi Mara
Language: English
id my.uitm.ir.95535
record_format eprints
spelling my.uitm.ir.955352024-09-27T13:45:58Z https://ir.uitm.edu.my/id/eprint/95535/ 3D printed lower-limb socket for prosthetic leg / Wan Fatimatul Aifaa Wan Fadzil ... [et al.] Wan Fadzil, Wan Fatimatul Aifaa Mazlan, Mohammad Azeeb Hanapiah, Fazah Akhtar Abdullah, Abdul Halim Technological change Technological innovations The statistics of lower limb amputation is rising across the globe and continues to be a major threat to morbidity and mortality. In Malaysia, amputation prevalence has been increasing in which several main components of service delivering aspects such as service intervention and prosthetic personnel should be anticipated to accommodate for the increasing demand. In this project, the objectives are to (i) design a lower limb socket for amputated leg according to stump size and, (ii) analyze the performance of the socket at different thickness and infill settings and (iii) fabricate the lower limb socket using 3D Printing technology. The novelty of this project is the process involved in the fabrication 100% technology-based in order to achieve target of Industrial Revolution 4.0. Several phases of design involved including computational analysis and fabrication using 3D printing technology. The design stage will model the socket layers, which can be obtained from 3D scan or CT-scan images. The analysis stage will evaluate the performance of the product based on the material used and the set-up procedure conducted. Resulting stress and deformation were measured to propose the best design and will be fabricate using 3D printing technology by considering the best suit of material and set-up as per obtained in the analysis. It will give a huge impact biotechnology field and thus may open many job opportunities soon. It is believed to have high potential of commercialization as the processes are more accurate, faster and economical compared to the traditional prosthetic leg fabrication. Universiti Teknologi MARA, Kedah 2019 Book Section NonPeerReviewed text en https://ir.uitm.edu.my/id/eprint/95535/1/95535.pdf 3D printed lower-limb socket for prosthetic leg / Wan Fatimatul Aifaa Wan Fadzil ... [et al.]. (2019) In: Academic Intellectual International Invention, Innovation & Design Book. Universiti Teknologi MARA, Kedah, Universiti Teknologi MARA, Kedah, p. 125. ISBN 9789670314716
institution Universiti Teknologi Mara
building Tun Abdul Razak Library
collection Institutional Repository
continent Asia
country Malaysia
content_provider Universiti Teknologi Mara
content_source UiTM Institutional Repository
url_provider http://ir.uitm.edu.my/
language English
topic Technological change
Technological innovations
spellingShingle Technological change
Technological innovations
Wan Fadzil, Wan Fatimatul Aifaa
Mazlan, Mohammad Azeeb
Hanapiah, Fazah Akhtar
Abdullah, Abdul Halim
3D printed lower-limb socket for prosthetic leg / Wan Fatimatul Aifaa Wan Fadzil ... [et al.]
description The statistics of lower limb amputation is rising across the globe and continues to be a major threat to morbidity and mortality. In Malaysia, amputation prevalence has been increasing in which several main components of service delivering aspects such as service intervention and prosthetic personnel should be anticipated to accommodate for the increasing demand. In this project, the objectives are to (i) design a lower limb socket for amputated leg according to stump size and, (ii) analyze the performance of the socket at different thickness and infill settings and (iii) fabricate the lower limb socket using 3D Printing technology. The novelty of this project is the process involved in the fabrication 100% technology-based in order to achieve target of Industrial Revolution 4.0. Several phases of design involved including computational analysis and fabrication using 3D printing technology. The design stage will model the socket layers, which can be obtained from 3D scan or CT-scan images. The analysis stage will evaluate the performance of the product based on the material used and the set-up procedure conducted. Resulting stress and deformation were measured to propose the best design and will be fabricate using 3D printing technology by considering the best suit of material and set-up as per obtained in the analysis. It will give a huge impact biotechnology field and thus may open many job opportunities soon. It is believed to have high potential of commercialization as the processes are more accurate, faster and economical compared to the traditional prosthetic leg fabrication.
format Book Section
author Wan Fadzil, Wan Fatimatul Aifaa
Mazlan, Mohammad Azeeb
Hanapiah, Fazah Akhtar
Abdullah, Abdul Halim
author_facet Wan Fadzil, Wan Fatimatul Aifaa
Mazlan, Mohammad Azeeb
Hanapiah, Fazah Akhtar
Abdullah, Abdul Halim
author_sort Wan Fadzil, Wan Fatimatul Aifaa
title 3D printed lower-limb socket for prosthetic leg / Wan Fatimatul Aifaa Wan Fadzil ... [et al.]
title_short 3D printed lower-limb socket for prosthetic leg / Wan Fatimatul Aifaa Wan Fadzil ... [et al.]
title_full 3D printed lower-limb socket for prosthetic leg / Wan Fatimatul Aifaa Wan Fadzil ... [et al.]
title_fullStr 3D printed lower-limb socket for prosthetic leg / Wan Fatimatul Aifaa Wan Fadzil ... [et al.]
title_full_unstemmed 3D printed lower-limb socket for prosthetic leg / Wan Fatimatul Aifaa Wan Fadzil ... [et al.]
title_sort 3d printed lower-limb socket for prosthetic leg / wan fatimatul aifaa wan fadzil ... [et al.]
publisher Universiti Teknologi MARA, Kedah
publishDate 2019
url https://ir.uitm.edu.my/id/eprint/95535/1/95535.pdf
https://ir.uitm.edu.my/id/eprint/95535/
_version_ 1811596719553511424

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