[1] |
Renshaw J, Chen J, Holland S, et al. The sources of heat generation in vibrothermography[J]. NDT E International, 2011, 44(7):736-739. |
[2] |
Favro L, Han X, Ouyang Z, et al. Infrared imaging of defects heated by a sonic pulse[J]. Review of Scientific Instruments, 2000, 71(6):2418-2421. |
[3] |
Morbidini M, Cawley P, Barden T, et al. Prediction of the thermosonic signal from fatigue cracks in metals using vibration damping measurements[J]. Journal of Applied Physics, 2006, 100(10):104905-1-104905-13. |
[4] |
Berens A R. NDE Reliability Data Analysis[M]//ASM Metals Handbook. 9th ed. New York:ASM International, 1989, 17:689-701. |
[5] |
Stephen Holland, Christopher Uhl, Jeremy Renshaw. Toward a viable strategy for estimating vibrothermographic probability of detection[C]//AIP Conference Proceeding, 2008, 975:491-497. |
[6] |
Stephen Holland, Christopher Uhl, Zhong Ouyang, et al. Quantifying the vibrothermographic effect[J]. NDT E International, 2011, 44(7):775-782. |
[7] |
Ming Li, Stephen Holland, William Meeker. Quantitative multi-inspection-site comparison of probability of detection for vibrothermography nondestructive evaluation data[J]. J Nondestr Eval, 2011, 30(9):172-178. |
[8] |
Duan Yuxia, Pierre Servais, Marc Genest, et al. ThermoPoD:a reliability study on active infrared thermography for the inspection of composite materials[J]. Journal of Mechanical Science and Technology, 2012, 26(7):1985-1991. |
[9] |
Ben Weekes, Darry Almond, Peter Cawley, et al. Eddy-current induced thermography-probability of detection study of small fatigue cracks in steel, titanium and nickel-based superalloy[J]. NDT E International, 2012, 49:47-56. |
[10] |
Liu Junyan, Liu Yang, Wang Fei, et al. Study on probability of detection(POD) determination using lock-in thermography for nondestructive inspection(NDI) of CFRP composite materials[J]. Infrared Physics Technology, 2015, 71:448-456. |
[11] |
Feng Fuzhou, Zhang Chaosheng, Min Qingxu, et al. Effect of engagement force on vibration characteristics in sonic IR imaging[J]. Ultrasonics, 2015, 56(2):473-476. |
[12] |
Feng Fuzhou, Zhang Chaosheng, Min Qingxu, et al. Heating characteristics of metal plate crack in sonic IR imaging[J]. Infrared and Laser Engineering, 2015, 44(5):1456-1461. |
[13] |
ASTM Committee on Fatigue and Fracture. E647-11 Standard Test Method for Measurement of Fatigue Crack Growth Rates[S]. Pennsylvania:ASTM International, 2011. |