On the Influence of Order on the Soft Magnetic Properties of Fe‐Si Alloys

On the Influence of Order on the Soft Magnetic Properties of Fe‐Si Alloys

Five high‐Si steels (1.9, 3.3, 4.2, 5 and 5.6 wt.% Si) were processed by conventional hot and cold rolling. Using a proper thermomechanical schedule, it was possible to produce final sheets with a thickness of 0.5‐0.7 mm. For two of the steels with 4.2 and 5.6 wt. % Si different cooling rates after...

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Bibliographic Details
Published in:Steel research international Vol. 76; no. 6; pp. 429 - 435
Main Authors: Ruiz, Daniel, Ros‐Yéñez, Tanya, Vandenberghe, Robert E., Houbaert, Yvan
Format: Journal Article Conference Proceeding
Language:English
Published: Düsseldorf Verlag Stahleisen 01-06-2005
Subjects:
Applied sciences
Binary systems
Cold rolling
Cooling
Ductility
electrical steel
Exact sciences and technology
high‐Si alloys
Magnetic properties
Metals. Metallurgy
Mössbauer spectroscopy
Order disorder
Power loss
Steels
thermomechanical processing
Workability
Magnetic alloy
Magnetic material
thermomechanical processing
Mössbauer spectroscopy
high-Si alloys
Moessbauer spectrometry
Order disorder transformation
electrical steel
Electric furnace steel
Magnetic properties
Thermomechanical treatment
order-disorder
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Summary:Five high‐Si steels (1.9, 3.3, 4.2, 5 and 5.6 wt.% Si) were processed by conventional hot and cold rolling. Using a proper thermomechanical schedule, it was possible to produce final sheets with a thickness of 0.5‐0.7 mm. For two of the steels with 4.2 and 5.6 wt. % Si different cooling rates after hot rolling were applied in order to study the influence of ordering phenomena on the workability of the material. Mössbauer spectroscopy was used to characterize the degree of order of the steels along their thermomechanical processing. Long‐range order parameters were directly obtained from the Mössbauer spectra analysis. Results show that D03 order enhancement causes deterioration of the ductility above 3.5 wt.%Si. In addition, the limitation of order enhancement during cooling seems to be the reason for the improved workability in the fast cooled samples: the slower the cooling, the higher the degree of order, with a consequent decrease in ductility. Power losses and magnetic polarization were measured after cold rolling and annealing. An influence of order on the magnetic properties is discussed: order enhancement seems to cause a detriment to the power losses.
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ISSN:1611-3683
1869-344X
DOI:10.1002/srin.200506033