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Design modification and finite element analysis of stainless steel 316L locking compression plates for mid-transverse fractures / Muhammad Naufal Nazeri ... [et al.]

Bone fracture is the most common orthopedics problem. To achieve stability in the internal fixation of bone fragments, apply a Locking Compression Plate (LCP), which consists of a set of plates and screws. Common materials used for the bone fixation plate are stainless steel, titanium, and other met...

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Main Authors: Nazeri, Muhammad Naufal, Shuib, Solehuddin, Romli, Ahmad Zafir, Mohd Miswan, Mohd Fairudz
Format: Article
Language:English
Published: UiTM Press 2024
Subjects:
Human physiology
Finite element method
Online Access:https://ir.uitm.edu.my/id/eprint/105988/1/105988.pdf
https://ir.uitm.edu.my/id/eprint/105988/
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spelling my.uitm.ir.1059882024-11-20T08:38:02Z https://ir.uitm.edu.my/id/eprint/105988/ Design modification and finite element analysis of stainless steel 316L locking compression plates for mid-transverse fractures / Muhammad Naufal Nazeri ... [et al.] jmeche Nazeri, Muhammad Naufal Shuib, Solehuddin Romli, Ahmad Zafir Mohd Miswan, Mohd Fairudz Human physiology Finite element method Bone fracture is the most common orthopedics problem. To achieve stability in the internal fixation of bone fragments, apply a Locking Compression Plate (LCP), which consists of a set of plates and screws. Common materials used for the bone fixation plate are stainless steel, titanium, and other metal alloys. Those materials are stiffer than cortical bone, causing a stress shielding effect. The stress shielding phenomenon takes place during bone remodelling, which affects the growth of bone and bone loss upon the healing process. The purpose of this study is to design the best LCP to minimize or eliminate the stress shielding issue for tibia shaft fracture. A reverse engineering process is used to obtain the solid part using 3D scanning, and data clean-up is done in CATIA V5, which is then used to be imported into the finite element software ANSYS 23R2. The fracture simulation is on transverse type fractures with the creation of a gap of 1 mm around the mid-tibial shaft region. Several boundary conditions will be parametrized, such as material properties, contact definitions, meshing, and loading conditions in preprocessing. This paper examines and simulates the behaviour of LCP under a load via finite element analysis (FEA). UiTM Press 2024-11 Article PeerReviewed text en https://ir.uitm.edu.my/id/eprint/105988/1/105988.pdf Design modification and finite element analysis of stainless steel 316L locking compression plates for mid-transverse fractures / Muhammad Naufal Nazeri ... [et al.]. (2024) Journal of Mechanical Engineering (JMechE) <https://ir.uitm.edu.my/view/publication/Journal_of_Mechanical_Engineering_=28JMechE=29/>, 13 (1): 14. pp. 257-270. ISSN 1823-5514 ; 2550-164X
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 Human physiology
Finite element method
spellingShingle Human physiology
Finite element method
Nazeri, Muhammad Naufal
Shuib, Solehuddin
Romli, Ahmad Zafir
Mohd Miswan, Mohd Fairudz
Design modification and finite element analysis of stainless steel 316L locking compression plates for mid-transverse fractures / Muhammad Naufal Nazeri ... [et al.]
description Bone fracture is the most common orthopedics problem. To achieve stability in the internal fixation of bone fragments, apply a Locking Compression Plate (LCP), which consists of a set of plates and screws. Common materials used for the bone fixation plate are stainless steel, titanium, and other metal alloys. Those materials are stiffer than cortical bone, causing a stress shielding effect. The stress shielding phenomenon takes place during bone remodelling, which affects the growth of bone and bone loss upon the healing process. The purpose of this study is to design the best LCP to minimize or eliminate the stress shielding issue for tibia shaft fracture. A reverse engineering process is used to obtain the solid part using 3D scanning, and data clean-up is done in CATIA V5, which is then used to be imported into the finite element software ANSYS 23R2. The fracture simulation is on transverse type fractures with the creation of a gap of 1 mm around the mid-tibial shaft region. Several boundary conditions will be parametrized, such as material properties, contact definitions, meshing, and loading conditions in preprocessing. This paper examines and simulates the behaviour of LCP under a load via finite element analysis (FEA).
format Article
author Nazeri, Muhammad Naufal
Shuib, Solehuddin
Romli, Ahmad Zafir
Mohd Miswan, Mohd Fairudz
author_facet Nazeri, Muhammad Naufal
Shuib, Solehuddin
Romli, Ahmad Zafir
Mohd Miswan, Mohd Fairudz
author_sort Nazeri, Muhammad Naufal
title Design modification and finite element analysis of stainless steel 316L locking compression plates for mid-transverse fractures / Muhammad Naufal Nazeri ... [et al.]
title_short Design modification and finite element analysis of stainless steel 316L locking compression plates for mid-transverse fractures / Muhammad Naufal Nazeri ... [et al.]
title_full Design modification and finite element analysis of stainless steel 316L locking compression plates for mid-transverse fractures / Muhammad Naufal Nazeri ... [et al.]
title_fullStr Design modification and finite element analysis of stainless steel 316L locking compression plates for mid-transverse fractures / Muhammad Naufal Nazeri ... [et al.]
title_full_unstemmed Design modification and finite element analysis of stainless steel 316L locking compression plates for mid-transverse fractures / Muhammad Naufal Nazeri ... [et al.]
title_sort design modification and finite element analysis of stainless steel 316l locking compression plates for mid-transverse fractures / muhammad naufal nazeri ... [et al.]
publisher UiTM Press
publishDate 2024
url https://ir.uitm.edu.my/id/eprint/105988/1/105988.pdf
https://ir.uitm.edu.my/id/eprint/105988/
_version_ 1817847211366547456
score 13.222552

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