Simulated Analysis Ti-6Al-4V Plate and Screw as Transverse Diaphyseal Fracture Implant for Ulna Bone

Simulated Analysis Ti-6Al-4V Plate and Screw as Transverse Diaphyseal Fracture Implant for Ulna Bone

Abstract. Transverse diaphyseal fracture is one of the most common fractures caused by accidents. The fracture treatment needs surgery to apply the fixations that matched the bone geometry. This paper aims to reverse engineering of a published bone plate and screw criteria into a threedimensional (3...

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Main Authors: Mustika Ainun Sabrina, Sonia Adilina Hartati, Talitha Asmaria, 080810202, Prihartini Widiyanti
Format: Article PeerReviewed
Language:English
English
Published: Trans Tech Publications Ltd, Switzerland 2022
Subjects:
R856-857 Biomedical engineering. Electronics. Instrumentation
Online Access:https://repository.unair.ac.id/126724/1/2022%20-%20JBBBE%20Simulated%20Ti6Al%204V%20Plate%20and%20Screw.pdf
https://repository.unair.ac.id/126724/2/Simulated%20Analysis%20Ti-6Al-4V%20Plate%20and%20Screw%20as%20Transverse%20Diaphyseal%20Fracture%20Implant%20for%20Ulna%20Bone.pdf
https://repository.unair.ac.id/126724/
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spelling id-langga.1267242023-05-24T08:51:52Z https://repository.unair.ac.id/126724/ Simulated Analysis Ti-6Al-4V Plate and Screw as Transverse Diaphyseal Fracture Implant for Ulna Bone Mustika Ainun Sabrina Sonia Adilina Hartati Talitha Asmaria, 080810202 Prihartini Widiyanti R856-857 Biomedical engineering. Electronics. Instrumentation Abstract. Transverse diaphyseal fracture is one of the most common fractures caused by accidents. The fracture treatment needs surgery to apply the fixations that matched the bone geometry. This paper aims to reverse engineering of a published bone plate and screw criteria into a threedimensional (3D) model and analyze them using the finite element method (FEM) in several factors, the bone, the plate, the screw, the unification of plate and screw, and combination all components. This paper conducts two main activities of designing plate and screw based on literature for ulna bone implant and running the FEM to achieve the von Misses stress in the plate, screw, and bone by placing load and constrained area based on the actual use of the implant in the patient. The maximum number in von Misses stress are 5.01855 MPa for bone only, 0.00918 MPa for plate only, 193.304 MPa for screws only, 6.28160 MPa for the assembly screws and a plate, and 761.07 MPa for all unification. All simulation results meet the expectation that the bone analysis is less than the compressive strength of the ulnar bone. Moreover, when applied to the bone, the plate and screw analysis and the assembly also demonstrate a lower number than the yield strength of the properties of the Ti6Al4V materials. All this biomechanical assessment confirms that designs could withstand ulnar bone’s ultimate flexural load and pressure. The finite element analysis (FEA) on the proposed recreated dimension on ulnar plate and screw is expected to accelerate the rehabilitation process of radius ulnar fracture, particularly in the transverse diaphyseal fracture in ulna bone. Trans Tech Publications Ltd, Switzerland 2022 Article PeerReviewed text en https://repository.unair.ac.id/126724/1/2022%20-%20JBBBE%20Simulated%20Ti6Al%204V%20Plate%20and%20Screw.pdf text en https://repository.unair.ac.id/126724/2/Simulated%20Analysis%20Ti-6Al-4V%20Plate%20and%20Screw%20as%20Transverse%20Diaphyseal%20Fracture%20Implant%20for%20Ulna%20Bone.pdf Mustika Ainun Sabrina and Sonia Adilina Hartati and Talitha Asmaria, 080810202 and Prihartini Widiyanti (2022) Simulated Analysis Ti-6Al-4V Plate and Screw as Transverse Diaphyseal Fracture Implant for Ulna Bone. Journal of Biomimetics, Biomaterials and Biomedical Engineering, 55 (35-45). pp. 2296-9845. doi:10.4028/p-63a93r Accepted: 2021-12-06
institution Universitas Airlangga
building Universitas Airlangga Library
continent Asia
country Indonesia
Indonesia
content_provider Universitas Airlangga Library
collection UNAIR Repository
language English
English
topic R856-857 Biomedical engineering. Electronics. Instrumentation
spellingShingle R856-857 Biomedical engineering. Electronics. Instrumentation
Mustika Ainun Sabrina
Sonia Adilina Hartati
Talitha Asmaria, 080810202
Prihartini Widiyanti
Simulated Analysis Ti-6Al-4V Plate and Screw as Transverse Diaphyseal Fracture Implant for Ulna Bone
description Abstract. Transverse diaphyseal fracture is one of the most common fractures caused by accidents. The fracture treatment needs surgery to apply the fixations that matched the bone geometry. This paper aims to reverse engineering of a published bone plate and screw criteria into a threedimensional (3D) model and analyze them using the finite element method (FEM) in several factors, the bone, the plate, the screw, the unification of plate and screw, and combination all components. This paper conducts two main activities of designing plate and screw based on literature for ulna bone implant and running the FEM to achieve the von Misses stress in the plate, screw, and bone by placing load and constrained area based on the actual use of the implant in the patient. The maximum number in von Misses stress are 5.01855 MPa for bone only, 0.00918 MPa for plate only, 193.304 MPa for screws only, 6.28160 MPa for the assembly screws and a plate, and 761.07 MPa for all unification. All simulation results meet the expectation that the bone analysis is less than the compressive strength of the ulnar bone. Moreover, when applied to the bone, the plate and screw analysis and the assembly also demonstrate a lower number than the yield strength of the properties of the Ti6Al4V materials. All this biomechanical assessment confirms that designs could withstand ulnar bone’s ultimate flexural load and pressure. The finite element analysis (FEA) on the proposed recreated dimension on ulnar plate and screw is expected to accelerate the rehabilitation process of radius ulnar fracture, particularly in the transverse diaphyseal fracture in ulna bone.
format Article
PeerReviewed
author Mustika Ainun Sabrina
Sonia Adilina Hartati
Talitha Asmaria, 080810202
Prihartini Widiyanti
author_facet Mustika Ainun Sabrina
Sonia Adilina Hartati
Talitha Asmaria, 080810202
Prihartini Widiyanti
author_sort Mustika Ainun Sabrina
title Simulated Analysis Ti-6Al-4V Plate and Screw as Transverse Diaphyseal Fracture Implant for Ulna Bone
title_short Simulated Analysis Ti-6Al-4V Plate and Screw as Transverse Diaphyseal Fracture Implant for Ulna Bone
title_full Simulated Analysis Ti-6Al-4V Plate and Screw as Transverse Diaphyseal Fracture Implant for Ulna Bone
title_fullStr Simulated Analysis Ti-6Al-4V Plate and Screw as Transverse Diaphyseal Fracture Implant for Ulna Bone
title_full_unstemmed Simulated Analysis Ti-6Al-4V Plate and Screw as Transverse Diaphyseal Fracture Implant for Ulna Bone
title_sort simulated analysis ti-6al-4v plate and screw as transverse diaphyseal fracture implant for ulna bone
publisher Trans Tech Publications Ltd, Switzerland
publishDate 2022
url https://repository.unair.ac.id/126724/1/2022%20-%20JBBBE%20Simulated%20Ti6Al%204V%20Plate%20and%20Screw.pdf
https://repository.unair.ac.id/126724/2/Simulated%20Analysis%20Ti-6Al-4V%20Plate%20and%20Screw%20as%20Transverse%20Diaphyseal%20Fracture%20Implant%20for%20Ulna%20Bone.pdf
https://repository.unair.ac.id/126724/
_version_ 1767194241141833728

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