EXPERIMENT STUDY OF THE MAGNETIC MEMORY SIGNAL CHARACTERISTICS OF BUTT WELD UNDER FATIGUE LOADS USING GRADIENT INTEGRAL, 135-146.

Hu Ma,∗ Zhenfeng He,∗ Jianting Zhou,∗ Leng Liao,∗∗ Yang Zou,∗ and Yue Chen∗

References

1. [1] P.K. Liaw, C.Y. Yang, S.S. Palusamy, and W. Ren, Fatiguecrack initiation and propagation behavior of pressure vesselsteels, Engineering Fracture Mechanics, 57(1), 1997, 85–95.
2. [2] D.A. Cook and Y.H. Berthelot, Detection of small surface-breaking fatigue cracks in steel using scattering of Rayleighwaves, NDT & E International, 34(7), 2001, 483–492.
3. [3] S. Gupta, A. Ray, and E. Keller, Online fatigue damagemonitoring by ultrasonic measurements: A symbolic dynamicsapproach, International Journal of Fatigue, 29(6), 2007, 1100–1114.
4. [4] Y. Yan, L.L. Zou, and X.L Zhou, Infrared thermal imaging non-destructive testing of fatigue cracks of steel bridges, Journalof Applied Sciences, 34(1), 2016, 106–114.
5. [5] F.B. Wang, F. Sun, D.R. Zhu, T. Liu, X. Wang, and F.Wang, A method of metal fatigue damage assessment based onpolarization thermal image, Acta Optica Sinica, 40(14), 2020,118–128.
6. [6] J. M Sprauel, H. Michaud, Adaptation of the X-Ray diffractiontechnique to the analysis of residual stress in carbo-nitridedsteel layers, Trans Tech Publications, 490-491, 2005, 125-130.
7. [7] Y. Akiniwa, K. Tanaka, and H. Kimura, Measurement ofstress distribution near fatigue crack in ultrafine grained steelby synchrotron radiation, Materials Science Forum, 490–491,2005, 118–123.
8. [8] A.A. Doubov, Express method of quality control of a spotresistance welding with usage of metal magnetic memory,Welding in the World, Le Soudage Dans Le Monde, 46(6),2002, 317–320.
9. [9] L.H. Dong, B.S. Xu, S.Y. Dong, and D.W. Yin, Metal mag-netic memory experimenting for early damage assessment inferromagnetic materials, Journal of Central South Universityof Technology, 12(2), 2005,102–106.
10. [10] K. Yao, Z.D. Wang, B. Deng, and K. Shen, Experimentalresearch on metal magnetic memory method, ExperimentalMechanics, 52(3), 2012, 305–314.
11. [11] R.Q. Zhao, H. Zhang, L. Liao, J.T. Zhou, H.X. Ma, and Z.G.Li, A stress detection method for reinforced concrete structurebased on metal magnetic memory. International Journal ofRobotics and Automation, 33(6), 2018, 594–600.
12. [12] M. Roskosz, Metal magnetic memory experimenting of weldedjoints of ferritic and austenitic steels, NDT & E International,44(3), 2011, 305–310.
13. [13] Z.D. Wang, K. Yao, B. Deng, and K.Q. Ding, Quantitativestudy of metal magnetic memory signal versus local stressconcentration, NDT & E International, 43(6), 2010, 513–518.
14. [14] C. Xing, M.L. Lu, B. Hu, X.J. Cui, Y.H. Deng, D.Z. Yang,and E.N. Yang, Magnetic evaluation of fatigue damage intrain axles without artificial excitation, Insight (Northampton),48(6), 2006, 342–345.
15. [15] B.S. Xu, L.H. Dong, S.Y. Dong, and N. Xue, Study on self-emission magnetic signal behavior of fatigue crack growthof ferromagnetic materials under loading conditions, ActaMetallurgica Sinica, 3, 2011, 3–8.
16. [16] Z.B. Hu, J.C. Fan, S.N. Wu, H.Y. Dai, and S.J. Liu, Charac-teristics of metal magnetic memory experimenting of 35crmosteel during fatigue loading, Metals, 8(2), 2018, 119.
17. [17] N. Chen, H. Lin, and X.K. Wang, Crack propagation analysisand fatigue life prediction for structural alloy steel based onmetal magnetic memory experimenting, Journal of Magnetismand Magnetic Materials, 462(sep.), 2018, 144–152.
18. [18] D.C. Jiles and D.L. Athernon, Theory of the magnetizationprocess in ferromagnets and its application to the magne-tomechannical effect, Journal of Physics D-Applied Physics,17(6), 2000, 1265–1281.
19. [19] D.C. Jiles, Theory of the magnetomechanical effect, Journalof Physics D-Applied Physics, 28(2), 1995, 1537–1546.
20. [20] D.C. Jiles and L. Li, A new approach to modeling the magne-tomechanical effect, Journal of Applied Physics, 95(11), 2004,7058–7060.
21. [21] Q.Q. Fei, H.X. Wang, M. Xia, L. Guo, and T.H. Zhang, Effectof loading method on fatigue crack growth of ADB610 steel,Development and Application of Materials, 034(003), 2019,108–112.
22. [22] X.W. Chen, D.F. Zhang, S.S. Shi, L.J. Wang, D.L. Lv, andT.H. Shi, Effect of loading method on fatigue crack growth of28CrMo steel, Transactions of Materials and Heat Treatment,34(011), 2013, 109–113.
23. [23] British Standards Institution. Guide to Methods for Assessingthe Acceptability of Flaws in Metallic Structures, Bs7910British Standards, 2007.
24. [24] Y.Z. Zhou, F. Li, A. Qi, Y.H. Huang, and J.L. Bu, The latestdevelopment of fatigue strength analysis technology for steelstructure welds, China Railway Science, 30(004), 2009, 69–75.
25. [25] H. Zhang, J.T. Zhou, R.Q. Zhao, L. Liao, M. Yang, andR.C. Xia, Experimental study on detection of rebar corrosionin concrete based on metal magnetic memory, InternationalJournal of Robotics and Automation, 32(5), 2017, 530–537.

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• Abstract
• DOI: 10.2316/J.2022.206-0651
• From Journal (206) International Journal of Robotics and Automation - 2022

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