Abstract
High-speed railway in the world is developing towards the direction of high-speed and heavy load. The safety of train is an important part of the research of high-speed train. The online detection based metal magnetic memory method is proposed to meet the safety requirement. In order to detect the characteristics of the magnetic memory signal of the wheelset or axle in real-time, the research on the force-magnetic effect of the wheelset or axle material is necessary. This paper takes 25CrMo4 as an example to analyze the relationship between the force and the magnetic. The experimental results show that the magnetic memory signal has a tendency to become smaller with the increase of the load on the experimental specimens.
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References
C.P. Zhao, Study on Electromagnetic Ultrasonic Launch System for On-line Flaw Detection of Train Wheelset (Harbin Institute of Technology, Harbin, 2012)
J. Qi, W. Zhang, Y.J. Chu, S.B. Hu, Introduction of metal magnetic memory detection technology. Chem. Equip. Pipeline (5), 60–61 (2008)
J. Zhang, Damage memory element research, in International Conference on Robotics and Automation (Nanjing University of Aeronautics and Astronautics, Nanjing, 2004)
H.Z. Yan, L.J. Gong, Constitutive model of 20CrMo material and its finite element simulation. J. Cent. South Univ. (Nat. Sci. Ed.) 11, 4268–4273 (2012)
X.X. Li, H.X. Wang, P.Z. Ying, Shearer drum material selection. Coal Mine Mach. 9, 134–135 (2015)
L.Q. Luo, W. Ju, R.Q. Yu, S.J. Wang, Feasibility study of metal magnetic memory technology for stress relief annealing. Heat Treat. Technol. Equip. (5), 17–19 (2011)
A.A. Doubov, Screening of weld quality using the metal magnetic memory, in Welding in the World (1998), pp. 196–199
Q.M. Yang, G.Z. Li, D.S. Wang, Development and preliminary application of metal magnetic memory detector for railway. China Railway Sci. 1, 138–141 (2005)
Y. Liu, Rectangular Steel Tube Axial Stress Electromagnetic Test Research and Sensor Miniaturization, 5–8 March 2001 (Northeastern University, Shenyang, USA, 2001), pp. 1–8
J.L. Ren, J.M. Liu et al., Metal Magnetic Memory Detection Technology (China Electric Power Press, Beijing), I7-5083-0504-3
Q. Pan, Magnetic Memory Testing Technology Force-Magnetic Effect of the Experimental Study (Nanchang Aviation University, Nanchang, 2010)
D.H. Xiao, D.Y. Luo, Study on the influence of crack width on magnetic memory signal. J. Changsha Aeronaut. Vocat. Tech. Coll. 1, 42–44 (2007)
J. Wang, Metal Magnetic Memory Detection Signal Analysis (Nanchang Aviation University, Nanchang, 2010)
J.Y. Yao, Based on the force/magnetic coupling of remanufacturing components magnetic memory detection
Acknowledgements
The research work has been financially supported by the National Natural Science Foundation of China (51405303), the City University Youth Teacher Training Fund (ZZyy15110) and the Shanghai University of Applied Technology Talent Fund (YJ2014-17).
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Bi, Z., Kong, L. (2019). The Research on Force-Magnetic Effect of Wheelset of High-Speed Train Based on Metal Magnetic Memory Method. In: Jia, Y., Du, J., Zhang, W. (eds) Proceedings of 2018 Chinese Intelligent Systems Conference. Lecture Notes in Electrical Engineering, vol 528. Springer, Singapore. https://doi.org/10.1007/978-981-13-2288-4_3
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DOI: https://doi.org/10.1007/978-981-13-2288-4_3
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