Title :
Hysteresis and Magnetic Barkhausen Noise for SAE 1020 and 1045 Steels With Different Microstructures
Author :
Costa, Leonardo F. T. ; de Campos, Marcos F. ; Gerhardt, Gunther J. L. ; Missell, Frank P.
Author_Institution :
Div. de Planejamento e Fomento, CEPEL, Rio de Janeiro, Brazil
Abstract :
Barkhausen noise (BN) was measured in SAE 1020 and 1045 steels with different microstructures. It was found that constituents such as martensite and ferrite plus pearlite can be identified from their BN signatures and magnetic characterization data (coercivity and initial permeability). Comparison of the 1020 and 1045 steels suggests that it may be possible to separate ferrite and pearlite, because the BN burst in pearlite probably occurs for higher fields than in ferrite. The BN analysis, hysteresis, and initial permeability data indicate that in martensite, the magnetization reversal occurs essentially by domain rotation, thus explaining the distinct martensite BN signature.
Keywords :
Barkhausen effect; coercive force; crystal microstructure; magnetic domains; magnetic hysteresis; magnetic permeability; magnetisation reversal; martensitic steel; SAE 1020 steels; SAE 1045 steels; coercivity; domain rotation; ferritic steels; magnetic Barkhausen noise; magnetic characteristics; magnetic hysteresis; magnetic permeability; magnetization reversal; martensite BN signature; martensitic steels; microstructures; pearlitic steels; Ferrites; Magnetic domain walls; Magnetic domains; Magnetic hysteresis; Microstructure; Permeability; Steel; Barkhausen noise (BN); hysteresis curve; initial permeability; microstructure; nondestructive testing;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2013.2287701
