Pushkar Deshpande, K. Wasmer, Thomas Imwinkelried, Roman Heuberger, Michael Dreyer, B. Weisse, R. Crockett, V. Pandiyan
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引用次数: 0
摘要
由于超高分子量聚乙烯(UHMWPE)和钴铬钼(CoCrMo)之间复杂的相互作用,人体关节假体会出现磨损故障。本研究采用磨损分类法来研究超高分子量聚乙烯的渐进和渐进磨损机制。在模拟活体条件下进行了针盘测试,使用声发射(AE)监测磨损情况。磨损分类采用了两种机器学习(ML)框架:带有 ML 分类器的手动特征提取和带有 ML 分类器的基于对比学习的卷积神经网络(CNN)。与人工特征提取(81% 至 89%)相比,基于 CNN 的特征提取方法实现了更高的分类性能(94% 至 96%)。ML 技术可实现精确的磨损分类,有助于了解表面状态和早期故障检测。使用 AE 传感器进行实时监测为干预和改进假体关节设计带来了希望。
Classification of Progressive Wear on a Multi-Directional Pin-on-Disc Tribometer Simulating Conditions in Human Joints-UHMWPE against CoCrMo Using Acoustic Emission and Machine Learning
Human joint prostheses experience wear failure due to the complex interactions between Ultra-High-Molecular-Weight Polyethylene (UHMWPE) and Cobalt-Chromium-Molybdenum (CoCrMo). This study uses the wear classification to investigate the gradual and progressive abrasive wear mechanisms in UHMWPE. Pin-on-disc tests were conducted under simulated in vivo conditions, monitoring wear using Acoustic Emission (AE). Two Machine Learning (ML) frameworks were employed for wear classification: manual feature extraction with ML classifiers and a contrastive learning-based Convolutional Neural Network (CNN) with ML classifiers. The CNN-based feature extraction approach achieved superior classification performance (94% to 96%) compared to manual feature extraction (81% to 89%). The ML techniques enable accurate wear classification, aiding in understanding surface states and early failure detection. Real-time monitoring using AE sensors shows promise for interventions and improving prosthetic joint design.
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