The application of acoustic emission method for ultrasonic fatigue testing monitoring

M. Seleznev, A. Vinogradov
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Abstract

The ultrasonic fatigue testing (USFT) is an effective method for rapid determination of the fatigue properties of structural materials under high cycle (≥106 cycles) loading. However, the occurrence and accumulation of fatigue damage with this test method remain uncertain due to the limitations of the existing measurement methods. Currently used monitoring methods allow detecting the fatigue cracks, but only in the late stages of failure. Despite the superior sensitivity to localized processes in materials, the use of the acoustic emission (AE) method in ultrasonic testing is extremely difficult due to the presence of resonant noise. This work aimed to suppress resonant noise and extract the signal for early detection of fatigue damage. The authors tested the samples of the AlSi9Cu3 aluminum alloy under the asymmetric cyclic loading (R=0.1) at a resonant frequency of 19.5 kHz with a non-threshold AE registration. The fracture surfaces were analyzed by electron and optical microscopy. The authors processed AE by two different methods: (1) the digital filtering method consisted of detecting resonant noise and removing it from the spectrum; (2) the φ-function method consisted of differentiating the spectrogram by time. The processed spectrograms were integrated by the frequency with further extraction of the AE events using the threshold method. The digital filtering method revealed a correlation between AE signals and fatigue damage, whereas the undamaged control sample showed no signals. The φ-function technique demonstrated ambiguous results, showing high AE activity on the control sample.
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声发射法在超声疲劳试验监测中的应用
超声疲劳试验(USFT)是快速测定结构材料在高周(≥106次)载荷下疲劳性能的有效方法。然而,由于现有测量方法的限制,这种测试方法对疲劳损伤的发生和累积仍然不确定。目前使用的监测方法允许检测疲劳裂纹,但只能在失效的后期阶段。尽管声发射(AE)方法对材料的局部过程具有优越的灵敏度,但由于存在共振噪声,在超声检测中使用声发射(AE)方法非常困难。本工作旨在抑制共振噪声,提取信号,用于疲劳损伤的早期检测。在非对称循环载荷(R=0.1)下,对AlSi9Cu3铝合金样品在19.5 kHz的谐振频率下进行了非阈值声发射配准。用电子显微镜和光学显微镜对断口进行了分析。作者采用两种不同的方法对声发射进行处理:(1)数字滤波方法包括检测谐振噪声并将其从频谱中去除;(2) φ函数法是用时间对光谱图进行微分。对处理后的声谱图进行频率积分,并采用阈值法进一步提取声发射事件。数字滤波方法揭示了声发射信号与疲劳损伤之间的相关性,而未损伤的对照样品则没有信号。φ函数技术的结果不明确,在对照样品上显示出较高的声发射活性。
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