Acta Photonica Sinica, Volume. 52, Issue 1, 0114003(2023)
Research on Directivity of Laser Ultrasonic Sound Field Based on Transmission Method
[1] Jiuxin YUAN, Xunpeng QIN. Research progress of laser ultrasonic nondestructive testing technology. Surface Engineering & Remanufacturing, 19, 30-34+42(2019).
[2] W R MENG, Z G ZHOU. Non-contact detection of debonding defects in a steel-lead adhesive structure using laser ultrasonic technology. Lasers in Engineering, 41, 373-392(2018).
[3] Y ZHANG, X WANG, Q YANG et al. Research on epoxy resin curing monitoring using laser ultrasonic. Measurement, 158, 1-10(2020).
[4] Y N CHEN, J C LV, Y Y ZHANG et al. Laser ultrasonic monitoring of reversible/irreversible modification of a real crack under photothermal loading. Structural Health Monitoring, 20, 173-187(2020).
[5] M M LI, M L ALEXEY, Z H SHEN et al. Monitoring of thermal aging of aluminum alloy via nonlinear propagation of acoustic pulses generated and detected by lasers. Applied Sciences, 9, 1191(2019).
[6] M SUBHRA, M ABGIJIT, V G NITHIN et al. Corrosion monitoring in steel bars using Laser ultrasonic guided waves and advanced signal processing. Mechanical Systems and Signal Processing, 149, 1-19(2021).
[7] F Z LI, Y LUO. Total focusing method damage imaging in frequency domain using laser-ultrasonic lamb wave based on time-domain filtering in multi-band. Acta Mechanica Solida Sinica, 34, 404-424(2021).
[8] Hua ZHONG, Kaihua SUN, Ming SUN et al. Simulation analysis of multi-mode synthetic aperture focusing technique based on laser ultrasound. Journal of Applied Acoustics, 41, 535-547(2021).
[9] J M S SAKAMOTO, B R TITTMANN, A BABA et al. Directivity measurements in aluminum using a laser ultrasonics system. Journal of Physics: Conference Series, 278, 1-4(2011).
[10] D A HUTCHINS, R J DEWHURST, S B PALMER. Directivity patterns of laser-generated ultrasound in aluminum. The Journal of the Acoustical Society of America, 70, 233-240(1981).
[11] Jian MA, Yang ZHAO, Zhenzhen ZHANG et al. A scoustic field directivity of longitudinal wave generated by oblique laser based on combustion wave. High Power Laser and Particle Beams, 28, 25-29(2016).
[12] Hang ZHOU, Bin ZHANG, Qibo FENG et al. Numerical study on defect detection by ring light source generated ultrasonic. Laser Technology, 45, 168-173(2021).
[13] D C YI, C X PEI, T H LIU et al. Inspection of cracks with focused angle beam laser ultrasonic wave. Applied Acoustics, 145, 1-6(2019).
[14] D YAO, H F QIANG, D WANG et al. Laser array line source with adjustable period used for LGUS chemical corrosion detection. Journal of Saudi Chemical Society, 26, 1-5(2022).
[15] Hao SUI, Xiaorong GAO, Lin LUO et al. Finite element simulation and experiment on interaction of surface wave excited by laser point or line source with rail defects. Laser & Optoelectronics Progress, 56, 158-166(2019).
[16] F SCHMIEDER, L BUTTNER, J CZARSKE. Adaptive laser-induced ultrasound generation using a micro-mirror array spatial light modulator. Optics Express, 24, 22536-22543(2016).
[17] L E DRAIN. Laser ultrasonics techniques and applications, 237-272(2019).
[18] Miao NIU, Delin WU, Lei YAO et al. Study on calibration of directivity of ultrasonic stress transducer. Piezoelectrics & Acoustooptics, 44, 422-425(2022).
Get Citation
Copy Citation Text
Huaqi CHAI, Youxing CHEN, Zhaoba WANG, Xing GUO, Jian WANG, Xia ZHAO. Research on Directivity of Laser Ultrasonic Sound Field Based on Transmission Method[J]. Acta Photonica Sinica, 2023, 52(1): 0114003
Category:
Received: Jul. 11, 2022
Accepted: Sep. 9, 2022
Published Online: Feb. 27, 2023
The Author Email: CHEN Youxing (chenyouxing@nuc.edu.cn)