Iffa Mohd Arrif Solehuddin Shuib Amir Radzi Ab Ghani Arrif High-Flexion Knee Prosthesis

High-Flexion Knee Prosthesis

von Iffa Mohd Arrif Solehuddin Shuib Amir Radzi Ab Ghani

Design and Finite Element Analysis (FEA)

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Beschreibung

This book highlights the design, modifications, and analysis of knee prosthesis or total knee replacement (TKR) components. CT scan images of a knee joint are extracted by 3D Gens. The model of knee joint is then developed to create 3D model structures using CAD software. The design modifications’ process focuses on the tibial insert component to increase the range of motion. All the design modifications were analyzed using FEA software. The book describes additive manufacturing (AM) in order to fabricate the TKR components using 3D printing techniques such as fused deposition modeling (FDM) and selective laser sintering (SLS). It uses FDM to print the tibial insert with polyamide material. Meanwhile, SLS prints the femoral and tibial components with titanium alloy material. TKR jigs were fabricated by advanced manufacturing process using stainless steel, and compression testing evaluated the deformation when the force is applied vertically to the femoral component. Compression testing results are not discussed as they were used to validate the results of FEA only. The outcomes of FEA were compared with the compression results in terms of deformation.


This book highlights the design, modifications, and analysis of knee prosthesis or total knee replacement (TKR) components. CT scan images of a knee joint are extracted by 3D Gens. The model of knee joint is then developed to create 3D model structures using CAD software. The design modifications’ process focuses on the tibial insert component to increase the range of motion. All the design modifications were analyzed using FEA software. The book describes additive manufacturing (AM) in order to fabricate the TKR components using 3D printing techniques such as fused deposition modeling (FDM) and selective laser sintering (SLS). It uses FDM to print the tibial insert with polyamide material. Meanwhile, SLS prints the femoral and tibial components with titanium alloy material. TKR jigs were fabricated by advanced manufacturing process using stainless steel, and compression testing evaluated the deformation when the force is applied vertically to the femoral component. Compression testing results are not discussed as they were used to validate the results of FEA only. The outcomes of FEA were compared with the compression results in terms of deformation.


Highlights how to increase the range of motion or high flexion of total knee replacement Discusses design modifications' process on the tibial insert component to increase the range of motion Presents the success of total knee arthroplasty to improve patient specific implants via AM technologies

Autor*in

Iffa Mohd Arrif

Themen in »High-Flexion Knee Prosthesis«

Knee implant Total Knee Replacement (TKR) Additive Manufacturing (AM) 3D Gens Fused Deposition Modelling (FDM) Selective Laser Sintering (SLS)

Stimmen zu »High-Flexion Knee Prosthesis«

Details

ISBN: 9789819698776
Verlag: Springer Singapore
Erscheinung: 11.10.2025

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