Laser ultrasonic monitoring of reversible/irreversible modification of a real crack under photothermal loading

Ni, Chao; Lv, Jin-Chao; Zhang, Yueying; He, Hong; Xia, Xifeng; Shen, Zhonghua; Gusev, Vitalyi

doi:10.1177/1475921720915164

Cited by 7 publications

(3 citation statements)

References 84 publications

(161 reference statements)

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“…[2][3][4] UT usually utilizes various types of contact and noncontact transducers. [5][6][7][8][9][10][11][12] Laser ultrasonic (LU) inspection [13][14][15] is a UT method that utilizes lasers to generate and detect ultrasound, which combines the advantages of optics and acoustics testing techniques. [16][17][18] Pulse-echo, 19,20 time of flight diffraction, 21 and pitch-catch 22 methods are generally implemented to detect internal defects in LU inspection.…”

Section: Introductionmentioning

confidence: 99%

F-SAFT based on laser-induced directional multimode ultrasound for defect imaging

Dai,

NI,

Ying

et al. 2023

Structural Health Monitoring

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In conventional laser ultrasonic (LU) single-mode frequency domain synthetic aperture focusing technique (F-SAFT) imaging, the precision of the imaged defect profile is limited due to the influence of the directionality of laser-induced ultrasound and the directionality of detection. To solve this problem, LU-based F-SAFT imaging with the shear wave, longitudinal wave, and mode-converted wave is proposed in this article. In the experiment, multimode bulk waves are excited by a pulsed laser, and a laser Doppler vibrometer is employed to detect ultrasound waves. The F-SAFT imaging is performed with single-mode and multimode ultrasound wave signals, respectively. The results show that F-SAFT imaging fusing three mode signals (shear, longitudinal, and mode-converted waves) improves the range of the upper surface of the imaged defect by nearly two times. In addition, the profile of the imaged defect is more complete than that of using a combination of both longitudinal and shear waves. By analyzing the influence of the directionality of laser-induced ultrasound and the detection directionality caused by the out-of-plane ultrasound component on the imaging results, a theoretical approach is used to select a reasonable excitation–detection distance for the use of multimode-fused F-SAFT algorithm. Furthermore, the feasibility of the theoretical approach is verified by the experimental results.

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Section: Introductionmentioning

confidence: 99%

F-SAFT based on laser-induced directional multimode ultrasound for defect imaging

Dai,

NI,

Ying

et al. 2023

Structural Health Monitoring

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“…Ultrasonic Testing (UT) including conventional piezo-electric methods [1] , [2] and Laser Ultrasonic (LU) techniques [3] , [4] , [5] , [6] , is widely used in defect detection, location and evaluations. The Synthetic Aperture Focusing Technique (SAFT) is one of the imaging algorithms [1] for generating 2D and 3D imaging of defects by synthesizing ultrasonic signals from small aperture transducer(s) to improve the lateral resolution using point-by-point scanning.…”

Section: Introductionmentioning

confidence: 99%

“…The LU techniques have characteristics such as non-contact and non-destructive testing [3] , [4] , [5] , and can be conducted in wide frequency bands, on curved complex surfaces, or in hostile environments [6] , [8] . Successful demonstrations have been produced for detecting cracks in stainless steel plates [16] and imaging the layering of curved interfaces [9] , [10] using the LU-SAFT.…”

Section: Introductionmentioning

confidence: 99%

Non-destructive laser-ultrasonic Synthetic Aperture Focusing Technique (SAFT) for 3D visualization of defects

Chen

Ying

et al. 2021

Photoacoustics

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The Laser Ultrasonic (LU) technique has been widely studied. Detected ultrasonic signals can be further processed using Synthetic Aperture Focusing Techniques (SAFTs), to detect and image internal defects. LU-based SAFT in frequency-domain (F-SAFT) is developed to visualize horizontal hole-type defects in aluminum. Bulk acoustic waves are non-destructively generated by irradiating a laser line-source, and detected using a laser Doppler vibrometer at a point away from the generation. The influence of this non-coincident generation-detection on the equivalent acoustic velocity used in the algorithm is studied via velocity mappings. Because the wide-band generation characteristic of the LU technique, frequency range selections in acoustic wave signals are implemented to increase Signal-to-Noise Ratio (SNR) and reconstruction speed. Results indicate that by using the LU F-SAFT algorithm, and incorporating optimizations such as velocity mapping and frequency range selection, small defects can be visualized in 3D with corrected locations and improved image quality.

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Using deep learning to identify the depth of metal surface defects with narrowband SAW signals

Ding

Wan²,

Lu³

et al. 2023

Optics & Laser Technology

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Laser ultrasonic monitoring of reversible/irreversible modification of a real crack under photothermal loading

Cited by 7 publications

References 84 publications

F-SAFT based on laser-induced directional multimode ultrasound for defect imaging

F-SAFT based on laser-induced directional multimode ultrasound for defect imaging

Non-destructive laser-ultrasonic Synthetic Aperture Focusing Technique (SAFT) for 3D visualization of defects

Using deep learning to identify the depth of metal surface defects with narrowband SAW signals

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