References
- Sun Y, Wei L, Liu C, et al. Dynamic stress analysis of a metro bogie due to wheel out-of-roundness based on multibody dynamics algorithm. Eng Fail Anal. 2022;134:134.
- Qu S, Wang J, Zhang D, et al. Failure analysis on bogie frame with fatigue cracks caused by hunting instability. Eng Fail Anal. 2021;128:128.
- Zhao XY, Xie S, Zhang Y, et al. Fatigue reliability analysis of metro bogie frame based on effective notch stress method. Eng Fail Anal. 2022;131:131.
- Zhang D, Zhu H, Zhang C, et al. Crack initiation and propagation of defects adjacent to the X65 pipeline spiral weld under axial tensile force. Int J Pres Ves Pip. 2022;200:104814.
- Lampman S, Mulherin M, Shipley R. Nondestructive testing in failure analysis. J Fail Anal Prev. 2022;22(1):66–97.
- Fukuoka K, Noma S, Kobayashi M, et al. Consideration of multi-coil type magnetizer for detection of omnidirectional crack in magnetic particle testing. Int J Appl Electromagnet Mech. 2016;52(3–4):1537–1543. DOI:10.3233/JAE-162174
- Clark R, Dover WD, Bond LJ. The effect of crack closure on the reliability of NDT predictions of crack size. NDT Int. 1987;20(5):269–275.
- Balageas D, Maldague X, Burleigh D, et al. Thermal (IR) and other NDT techniques for improved material inspection. J Nondestr Eval. 2016;35(1):18. DOI:10.1007/s10921-015-0331-7
- He D, Kusano M, Watanabe M. Detecting the defects of warm-sprayed Ti-6al-4V coating using Eddy current testing method. Vol. 125. London, England: NDT EInt; 2022. p. 102565.
- Xie F, Wu X, Zhang H, et al. Research on pulsed eddy current automatic detection technology for weld defects of pressure vessel cylinder. Measurement. 2021;176:109081.
- Wang ZD, Gu Y, Wang YS. A review of three magnetic NDT technologies. J Magn Magn Mater. 2012;324(4):382–388.
- Runnemalm A, Broberg P, Henrikson P. Ultraviolet excitation for thermography inspection of surface cracks in welded joints. Case Stud NondestrTest Eval. 2014;29(4):332–344.
- Zhang X, Peng J, He K, et al. Nondestructive inspection of holes with distinct spacing in plate using the moving mode of induction thermography. Vol. 122. Amsterdam, Netherlands: Infrared Physics & Technology; 2022. p. 104045.
- Li H, Gao B, Lu X, et al. Dynamic rail near-surface inspection of multiphysical coupled electromagnetic and thermography sensing system. IEEE Trans Instrum Meas. 2023;72:1–13.
- Zhang X, Peng J, Zhang Q, et al. Nondestructive analysis of rolling contact fatigue cracks using induced scanning thermography. Opt Express. 2022;30(24):42982–42994. DOI:10.1364/OE.469656
- Yang R, He Y, Zhang H, et al. Through coating imaging and nondestructive visualization evaluation of early marine corrosion using electromagnetic induction thermography. Ocean Eng. 2018;147:277–288.
- Xu C, Zhang W, Wu C, et al. An improved method of eddy current pulsed thermography to detect subsurface defects in glass fiber reinforced polymer composites. Vol. 242. Oxford, England: Composite Structures; 2020. p. 112145.
- Kostson E, Weekesa B, Almond DP, et al., Crack detection using pulsed Eddy current stimulated thermography. AIP Conference Proceedings; San Diego, California, (USA): American Institute of Physics; 2011. p. 1335.
- Grosso M, Margarit-Mattos ICP, Pereira GR. Pulsed thermography inspection of composite anticorrosive coatings: defect detection and analysis of their thermal behavior through computational simulation. Materials. 2020;13(21):4812.
- Xu C, Zhou N, Xie J, et al. Investigation on eddy current pulsed thermography to detect hidden cracks on corroded metal surface. NDT E Int. 2016;84:27–35.
- Wu Y, Gao B, Zhao J, et al. Weld crack detection based on region electromagnetic sensing thermography. IEEE Sens J. 2019;19(2):751–762. DOI:10.1109/JSEN.2018.2868867
- Li X, Liu Z, Jiang X, et al. Method for detecting damage in carbon-fibre reinforced plastic-steel structures based on eddy current pulsed thermography. Case Stud NondestrTest Eval. 2018;33(1):1–19. DOI:10.1080/10589759.2016.1254213
- Wang Y, Gao X, Finckbohner M, et al. The effect of paint coatings on detection of vertical surface cracks in metals by induction thermography. NDT E Int. 2019;104:58–68.
- Li X, Gao B, Liu Z, et al. Microcracks detection based on shuttle-shaped electromagnetic thermography. IEEE Sens J. 2020;20(21):12961–12971.
- Liu Z, Gao B, Tian GY. Natural crack diagnosis system based on novel L-shaped electromagnetic sensing thermography. IEEE Trans Ind Electron. 2020;67(11):9703–9714.
- Wen CD, Mudawar I. Modeling the effects of surface roughness on the emissivity of aluminum alloys. International Journal of Heat & Mass Transfer. 2006;49(23):4279–4289.
- Liu ZP, Liu HL, Jiang L, et al. Simulation of non-destructive testing on weld surface crack of metal structure by electromagnetically stimulated infrared thermography. Proceedings of 2014 International Conference on Applied Mechanics and Mechanical Automation (AMMA 2014). 2014;590:639–644.
- Xiao XT, Liang Z, Tang S, et al. Design and experiment of a two-coil magnetic core inductor used for the stepped eddy current thermography technique. IEEE Sens J. 2021;21(24):27549–27560.
- Deng B, Li X, Wang H, et al. Line scanning thermography reconstruction algorithm for defects inspection with novel velocity estimation and image registration. IEEE Sens J. 2021;21(10):11555–11568.
- He M, Zheng W, Li W, et al. Research on temperature distribution law around crack using the moving mode of eddy current thermography. Infrared Phys Technol. 2019;102:102993.
- Zhang H, Yang R, He Y, et al. Identification and characterisation of steel corrosion using passive high frequency RFID sensors. Measurement. 2016;92:421–427.
- Lu X, Yi Q, Tian GY. A comparison of feature extraction techniques for delamination of cfrp using eddy current pulse-compression thermography. IEEE Sens J. 2020;20(20):12415–12422.