Development of friction and wear full-scale testing for TKR prostheses with reliable low cost apparatus

Prostheses products must undergo simulation and physical testing, before clinical testing. Finite element method is a preliminary simulation for in vivo test. The method visualizes the magnitude of the compressive force and the critical location of the Total Knee Replacement (TKR) prostheses design....

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Bibliographic Details
Main Authors: Suwandi, Agri, Soemardi, Tresna P., Kiswanto, Gandjar, Kusumaningsih, Widjajalaksmi, W., I. Gusti Agung I. G.
Format: Conference Proceeding
Language:English
Subjects:
Biocompatibility
Biomedical materials
Computer simulation
Finite element method
Friction
In vitro methods and tests
In vivo methods and tests
Knee
Prostheses
Statistical analysis
Surgical implants
Tibia
Wear rate
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Summary:Prostheses products must undergo simulation and physical testing, before clinical testing. Finite element method is a preliminary simulation for in vivo test. The method visualizes the magnitude of the compressive force and the critical location of the Total Knee Replacement (TKR) prostheses design. In vitro testing is classified as physical testing for prostheses product. The test is conducted to evaluate the potential failure of the product and the characteristics of the prostheses TKR material. Friction and wear testing are part of the in vivo test. Motion of knee joints, which results in the phenomena of extension and deflection in the femoral and tibia insert, is represented by friction and wear testing. Friction and wear tests aim to obtain an approximate lifetime in normal and extreme load patterns as characterized by the shape of the friction surface area. The lifetime estimation requires friction and wear full-scale testing equipments for TKR prostheses products. These are necessary in obtaining initial data on potential product failures and characterizing of the material based on the ASTM F2724-08 standards. Based on the testing result and statistical analysis data, the average wear rate value per year is 2.19 × 10−3 mg/MC, with a 10 % safety limit of volume and 14,400 cycles times, for 15 hours moving nonstop then the prediction of wear life of the component tibia insert is ± 10 years.
ISSN:0094-243X
1551-7616
DOI:10.1063/1.5023937