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The Mechanical Properties and Fatigue Prediction of a New Generation of Osteosynthesis Devices
The aim of the study was to predict the fatigue life of metallic bone plates employing SIMULIA fe-safe software. Two materials commonly used for surgical implants were subjected to investigation: 1.4441 (ASTM F138) stainless steel for implants and Ti6Al4V ELI (ASTM F136) titanium alloy. The material parameters of the two materials were determined from experimental research. Four-point bending fatigue testing was conducted on two generations of bone plates in order to allow for the comparison of the prediction results with the measured data from the experiments.
The Mechanical Properties and Fatigue Prediction of a New Generation of Osteosynthesis Devices
The aim of the study was to predict the fatigue life of metallic bone plates employing SIMULIA fe-safe software. Two materials commonly used for surgical implants were subjected to investigation: 1.4441 (ASTM F138) stainless steel for implants and Ti6Al4V ELI (ASTM F136) titanium alloy. The material parameters of the two materials were determined from experimental research. Four-point bending fatigue testing was conducted on two generations of bone plates in order to allow for the comparison of the prediction results with the measured data from the experiments.
The Mechanical Properties and Fatigue Prediction of a New Generation of Osteosynthesis Devices
Veronika Drátovská (author) / Radek Sedláček (author) / Zdeněk Padovec (author) / Pavel Růžička (author) / Adam Kratochvíl (author)
2021
Article (Journal)
Electronic Resource
Unknown
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