Data mining based full ceramic bearing fault diagnostic system using AE sensors.

IEEE transactions on neural networks Pub Date : 2011-12-01 Epub Date: 2011-10-10 DOI:10.1109/TNN.2011.2169087

David He, Ruoyu Li, Junda Zhu, Mikhail Zade

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引用次数: 81

Abstract

Full ceramic bearings are considered the first step toward full ceramic, oil-free engines in the future. No research on full ceramic bearing fault diagnostics using acoustic emission (AE) sensors has been reported. Unlike their steel counterparts, signal processing methods to extract effective AE fault characteristic features and fault diagnostic systems for full ceramic bearings have not been developed. In this paper, a data mining based full ceramic bearing diagnostic system using AE based condition indicators (CIs) is presented. The system utilizes a new signal processing method based on Hilbert Huang transform to extract AE fault features for the computation of CIs. These CIs are used to build a data mining based fault classifier using a k-nearest neighbor algorithm. Seeded fault tests on full ceramic bearing outer race, inner race, balls, and cage are conducted on a bearing diagnostic test rig and AE burst data are collected. The effectiveness of the developed fault diagnostic system is validated using real full ceramic bearing seeded fault test data.

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基于声发射传感器的全陶瓷轴承故障诊断系统。

全陶瓷轴承被认为是未来全陶瓷、无油发动机的第一步。利用声发射传感器进行全陶瓷轴承故障诊断的研究尚未见报道。与钢轴承不同，全陶瓷轴承提取有效声发射故障特征特征的信号处理方法和故障诊断系统尚未开发。提出了一种基于声发射的全陶瓷轴承状态指标数据挖掘诊断系统。该系统采用一种新的基于Hilbert Huang变换的信号处理方法提取声发射故障特征，用于计算ci。这些ci用于使用k-最近邻算法构建基于数据挖掘的故障分类器。在轴承诊断试验台上对全陶瓷轴承外滚圈、内滚圈、球和保持架进行了种子故障试验，采集了声发射爆炸数据。利用全陶瓷轴承种子故障试验数据，验证了该故障诊断系统的有效性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

IEEE transactions on neural networks 工程技术-工程：电子与电气

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审稿时长

8.7 months