Pattern Recognition Approach of Stress Wave Propagation in Carbon Steel Tubes for Defect Detection

Z. Halim, N. Jamaludin, S. Junaidi, S. Yusainee, S. Yahya
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引用次数: 1

Abstract

The conventional stress wave signal interpretation in heat exchanger tube inspection is human dependent. The difficulties associated with accurate defect interpretations are skills and experiences of the inspector. Hence, in present study, alternative pattern recognition approach was proposed to interpret the presence of defect in carbon steel heat exchanger tubes SA179. Several high frequency stress wave signals propagated in the tubes due to impact are captured using Acoustic Emission method. In particular, one reference tube and two defective tubes were adopted. The signals were then clustered using the feature extraction algorithms. This paper tested two feature extraction algorithms namely Principal Component Analysis (PCA) and Auto-Regressive (AR). The pattern recognition results showed that the AR algorithm is more effective in defect identification. Good comparisons with the commonly global statistical analysis demonstrate the effective application of the present approach for defect detection.
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用于缺陷检测的碳钢管应力波传播模式识别方法
在换热器管检测中,传统的应力波信号解释是依赖于人的。与准确的缺陷解释相关的困难是检查人员的技能和经验。因此,在本研究中,提出了一种替代模式识别方法来解释碳钢热交换器管SA179的缺陷。利用声发射法捕获了由于冲击而在管道中传播的高频应力波信号。特别地,采用了一个标准管和两个缺陷管。然后使用特征提取算法对信号进行聚类。本文测试了主成分分析(PCA)和自回归(AR)两种特征提取算法。模式识别结果表明,增强现实算法在缺陷识别方面更为有效。与常用的全局统计分析方法进行了比较,证明了该方法在缺陷检测中的有效应用。
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