Title :
Modeling microstructural effects on Barkhausen emission in surface-modified magnetic materials
Author :
Kinser, E.R. ; Lo, C.C.H. ; Barsic, A.J. ; Jiles, D.C.
Author_Institution :
Center for Nondestructive Evaluation, Iowa State Univ., Ames, IA, USA
Abstract :
Relationships between magnetic properties and microstructure in surface hardened steel were studied through measurements and model simulations, with the objective of developing techniques for quantitative measurements of case depth of surface hardened steels. The depth profiles of the magnetic properties were found to correlate with the hardness profile. Theoretical analysis using the hysteresis model and the stochastic model of domain wall dynamics indicates that the Barkhausen model parameters are inversely proportional to the domain wall pinning coefficient k. These relationships can be interpreted in terms of the effects of pinning site density on the local pinning field and distance of domain wall jumps which determine the Barkhausen activity.
Keywords :
Barkhausen effect; magnetic domain walls; magnetic hysteresis; magnetic materials; nondestructive testing; steel; stochastic processes; Barkhausen emission; case depth; depth profile; domain wall dynamics; hardness profile; hysteresis model; local pinning field; magnetic property; microstructural effect; nondestructive evaluation; pinning coefficient; quantitative measurement; stochastic model; surface hardened steel; surface-modified magnetic material; Data analysis; Magnetic analysis; Magnetic domain walls; Magnetic hysteresis; Magnetic materials; Magnetic properties; Materials science and technology; Microstructure; Steel; USA Councils; Barkhausen emission; case depth; nondestructive evaluation;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2005.854724
