Near-Surface Defects Identification in water immersion ultrasonic testing based on FFT and Phase Spectrum Difference

2020 IEEE Far East NDT New Technology & Application Forum (FENDT) Pub Date : 2020-11-20 DOI:10.1109/fendt50467.2020.9337546

S. Guan, Li Li, Xiao-Kai Wang

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Abstract

Ultrasonic pulse-echo testing always exist a near-surface blind zone, because the defect echo overlaps with the interface echo, it is difficult to accurately identify the near-surface defect. This paper presents an investigation with fast Fourier transform (FFT) combined with phase spectrum difference (PSD) for detecting near-surface defects in metal materials. Firstly, the phase spectrum of defect signal and free-defect signal are obtained by FFT, and the PSD between them is calculated. The FFT is utilized again to acquire the main frequency and corresponding period of PSD. Then, the offset time is proposed to represent the location of the near-surface defects. The theoretical correctness of the proposed method is validated by the ultrasonic simulation signals of single defect, multi-defects and noise interference in the near-surface blind zone. Finally, the water immersion ultrasonic testing experiment is carried out to detect the near-surface artificial defects of test specimens from a large ring forging. The experimental result revealed that the calculation of near-surface defects depth by offset time has high accuracy.

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基于FFT和相谱差的水浸超声检测近表面缺陷识别

超声脉冲回波检测存在近表面盲区，由于缺陷回波与界面回波重叠，难以准确识别近表面缺陷。本文研究了快速傅里叶变换(FFT)与相谱差(PSD)相结合的金属材料近表面缺陷检测方法。首先，利用FFT得到缺陷信号和无缺陷信号的相位谱，并计算它们之间的PSD;再次利用FFT获取PSD的主频率和对应周期。然后，提出用偏移时间来表示近表面缺陷的位置。通过近地表盲区单缺陷、多缺陷和噪声干扰的超声仿真信号验证了该方法的理论正确性。最后，对某大型环锻试件近表面人工缺陷进行了水浸超声检测实验。实验结果表明，利用偏移时间计算近表面缺陷深度具有较高的精度。

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

2020 IEEE Far East NDT New Technology & Application Forum (FENDT)

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