应用小波功率和香农熵对声发射信号进行钢筋混凝土腐蚀检测与评价

Jinrui Zhang, Ziye Kang, D. Hou, Biqin Dong, Hongyan Ma
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引用次数: 8

摘要

采用功率谱密度、小波变换和香农熵对受腐蚀干湿循环和静载荷耦合作用的钢筋混凝土梁腐蚀试验声发射信号进行分析。基于累积事件数(AEN),钢筋混凝土腐蚀梁的退化过程可分为4个阶段。由于材料性能的不同,钢筋和混凝土基体具有不同的声发射特征。声发射信号的时频特性可以反映钢腐蚀和混凝土开裂的微观结构退化机理。腐蚀评估需要用香农熵来研究小波幂的数学演化。频率熵清晰地反映了声发射信号在某一频率区域内的相对功率分布。随着钢筋腐蚀和混凝土劣化的累积,总熵积分的增量相当明显。频率-熵曲线的变化揭示了静荷载作用下钢筋混凝土构件的腐蚀演变过程,即由腐蚀诱发的微裂缝向荷载诱发的局部裂缝转变。
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Wavelet Power and Shannon Entropy Applied to Acoustic Emission Signals for Corrosion Detection and Evaluation of Reinforced Concrete
Acoustic emission (AE) signals detected from corrosion test on a steel reinforced concrete beam subjected to the coupling effects of corrosive wet-dry cycles and static load are analyzed by power spectral density, wavelet transform, and Shannon entropy. The degradation process of the corroded reinforced concrete beam can be divided into four stages on the basis of the accumulated event number (AEN). Due to the difference of material properties, steel reinforcement and concrete matrix have distinguished AE features. The time-frequency characteristics of AE signals can reflect the microstructural degradation mechanism of steel corrosion and concrete cracking. The corrosion evaluation entails investigating the evolution of the wavelet power mathematically by Shannon entropy. The frequency-entropy clearly exhibits the relative power distribution of AE signal in a certain frequency region. With the accumulation of steel corrosion and concrete deterioration, the increment of the overall entropy integration is considerably apparent. The variation of frequency-entropy curve reveals the corrosion revolution of the reinforced concrete members under static load, which is represented by a transforming from corrosion-induced micro cracking to load-induced localized cracking.
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