References
- Liu C, Luo Y, Yang M, et al. Three-dimensional finite element simulation of welding residual stress in RPV with two J-groove welds. Weld World. 2017;61(1):151–160.
- Liu B, Dong SY. Anisotropic structure affects thickness measurement of laser cladding coating with surface ultrasonic wave based on cross-correlation function. Mater Res Innovations. 2015;19:1–5.
- Fang CF, Chen Y, Yang ZD, et al. Cable-type welding wire submerged arc surfacing . J Mater Process Technol. 2017;249:25–31.
- Chen SJ, Zhou Y, Xue JR, et al. High rotation speed friction stir welding for 2014 aluminum alloy thin sheets. J Mater Eng Perform. 2017;26(3):1337–1345.
- Liu C, Ge QL, Chen DJ, et al. Residual stress variation in a thick welded joint after ultrasonic impact treatment. Sci Tec Weld Joining. 2016;21(4):624–631.
- Liu B, Miao WB, Dong SY, et al. Grain size effect on Lcr elastic wave for surface stress measurement of carbon steel. Case Stud NondestrTest Eval. 2018;33(2):139–153.
- Liu B, Miao WB, Dong SY, et al. Grain size correction of welding residual stress measurement in a carbon steel plate using the critical refraction of longitudinal waves. Res Nondestr Eval. 2017; DOI:10.1080/09349847.2017.1375170.
- Doubov AA. The express-technique of welded joints examination with use of metal magnetic memory [J]. NDT E Int. 2000;33(6):351–362.
- Doubov AA. Screening of weld quality using the metal magnetic memory. Weld World. 1998;41:196–199.
- Wilson JW, Tian GY, Barrans S. Residual magnetic field sensing for stress measurement. Sens Actuators A Phys. 2007;135(2):381–387.
- Smith CM, Sherman GW. A study of the magnetic qualities of stressed iron and steel [J]. Phys Rev Lett. 1914;4:267–273.
- Sandford RL. Effect of stress on the magnetic properties of steel wire. Sci Pap Bur Stand. 1924;19:469–497.
- Fischer MF. Note on the effect of repeated stresses on the magnetic properties of steel. Bur stand J Res. 1928;1(5):721–732.
- Shi PP, Jin K, Zheng XJ. A magnetomechanical model for the magnetic memory method. Int J Mech Sci. 2017;124–125:229–241.
- Lu L, Jiles DC. Modified law of approach for the magnetomechanical model: application of the Rayleigh law to stress. IEEE Trans Magn. 2003;39(5):3037–3039.
- Hauser H, Melikhov Y, Jiles DC. Examination of the equivalence of ferromagnetic hysteresis models describing the dependence of magnetization on magnetic field and stress. IEEE Trans Magn. 2009;45(4):1940–1949.
- Jiles DC. Theory of the magnetomechanical effect [J]. J Phys D Appl Phys. 1995;28:1537–1546.
- Li CC, Dong LH, Wang HD, et al. Metal magnetic memory technique used to predict the fatigue crack propagation behavior of 0.45% C steel. J Magn Magn Mater. 2016;405:150–157.
- Yan TJ, Zhang JD, Feng GD, et al. Early inspection of wet steam generator tubes based on metal magnetic memory method. Procedia Eng. 2011;15:1140–1144.
- Leng JC, Liu Y, Zhou GQ, et al. Metal magnetic memory signal response to plastic deformation of low carbon steel. NDT E Int. 2013;55:42–46.
- Takaya S, Nagae Y. Magnetic property change of type 304 stainless steel due to accumulation of fatigue damage at elevated temperature. Int J Appl Electromagnet Mech. 2007;25(1–4):211–217.
- Liu B, Gong K, Qiao YX, et al. Evaluation of influence of preset crack burial depth on stress of laser cladding coating with metal magnetic memory. Acta Metall Sin. 2016;52(2):241–248.
- Dong LH, Xu BS, Dong SY, et al. Variation of stress induced magnetic signals during testing of ferromagnetic steels. NDT&E Int. 2008;41(3):184–189.
- Dong LH, Xu BS, Dong SY, et al. The effect of axial tensile load on magnetic memory signals from the surface of medium carbon steel. Chin J Mater Res. 2006;20(4):440–444.
- Shi CL, Dong SY, Xu BS, et al. Metal magnetic memory effect caused by static tension load in a case-hardened steel. J Magn Magn Mater. 2010;322(4):413–416.