Influence of mechanical and water-jet cutting on the dynamic magnetic properties of NO Fe-Si steels

Influence of mechanical and water-jet cutting on the dynamic magnetic properties of NO Fe-Si steels

•Non-oriented steels cut through guillotine and water-jet technologies.•Strain-hardened band width estimation using hyperbolic dependence based on magnetization curves.•Analysis of losses by identifying their components in strain-hardened zones.•Phenomenological formulation for hysteresis and excess...

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Veröffentlicht in:Journal of magnetism and magnetic materials 2020-04, Vol.499, p.166257, Article 166257
Hauptverfasser: Manescu (Paltanea), Veronica, Paltanea, Gheorghe, Ferrara, Enzo, Nemoianu, Iosif Vasile, Fiorillo, Fausto, Gavrila, Horia
Format: Artikel
Sprache:eng
Schlagworte:
Cutting technology
Ferrous alloys
Hydraulic jet cutting
Loss separation
Magnetic losses
Magnetic properties
Magnetization
Magnetization curve
Magnetization curves
Non-oriented electrical steel
Polarization
Sheets
Silicon steels
Strain-hardening
Strip
Variable thickness
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container_end_page
container_issue
container_start_page 166257
container_title Journal of magnetism and magnetic materials
container_volume 499
creator Manescu (Paltanea), Veronica
Paltanea, Gheorghe
Ferrara, Enzo
Nemoianu, Iosif Vasile
Fiorillo, Fausto
Gavrila, Horia
description •Non-oriented steels cut through guillotine and water-jet technologies.•Strain-hardened band width estimation using hyperbolic dependence based on magnetization curves.•Analysis of losses by identifying their components in strain-hardened zones.•Phenomenological formulation for hysteresis and excess loss dependence on strip width.•General and simple model to be applied for different cut profiles and technologies. Magnetization curve and energy losses have been analyzed in non-oriented (NO) Fe-Si alloys with variable thickness (0.20 mm–0.35 mm), cut at widths ranging between 5 mm and 60 mm, in order to assess the impact of cutting, either done by punching or water-jet techniques. Measurements were performed by means of a digitally controlled single strip tester, from dc up to 1.5 kHz, at peak polarization values Jp = 1.0 T and 1.5 T. The evolution of the magnetization curve and the structure-dependent hysteresis Wh and excess Wexc loss components have been assessed as a function of the strip width using a simple phenomenological model, by which the extension of the damaged area at the edges of the cut sheets is estimated. Such a model assumes a hyperbolic dependence of the measured polarization on the cut strip width. The limiting values of Wh and Wexc for the fully damaged and the pristine sheets are in this way estimated, showing that one can simply and affordably predict the magnetic behavior of NO Fe-Si steels subjected to cutting.
doi_str_mv 10.1016/j.jmmm.2019.166257
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Magnetization curve and energy losses have been analyzed in non-oriented (NO) Fe-Si alloys with variable thickness (0.20 mm–0.35 mm), cut at widths ranging between 5 mm and 60 mm, in order to assess the impact of cutting, either done by punching or water-jet techniques. Measurements were performed by means of a digitally controlled single strip tester, from dc up to 1.5 kHz, at peak polarization values Jp = 1.0 T and 1.5 T. The evolution of the magnetization curve and the structure-dependent hysteresis Wh and excess Wexc loss components have been assessed as a function of the strip width using a simple phenomenological model, by which the extension of the damaged area at the edges of the cut sheets is estimated. Such a model assumes a hyperbolic dependence of the measured polarization on the cut strip width. 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Magnetization curve and energy losses have been analyzed in non-oriented (NO) Fe-Si alloys with variable thickness (0.20 mm–0.35 mm), cut at widths ranging between 5 mm and 60 mm, in order to assess the impact of cutting, either done by punching or water-jet techniques. Measurements were performed by means of a digitally controlled single strip tester, from dc up to 1.5 kHz, at peak polarization values Jp = 1.0 T and 1.5 T. The evolution of the magnetization curve and the structure-dependent hysteresis Wh and excess Wexc loss components have been assessed as a function of the strip width using a simple phenomenological model, by which the extension of the damaged area at the edges of the cut sheets is estimated. Such a model assumes a hyperbolic dependence of the measured polarization on the cut strip width. 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subjects Cutting technology
Ferrous alloys
Hydraulic jet cutting
Loss separation
Magnetic losses
Magnetic properties
Magnetization
Magnetization curve
Magnetization curves
Non-oriented electrical steel
Polarization
Sheets
Silicon steels
Strain-hardening
Strip
Variable thickness
title Influence of mechanical and water-jet cutting on the dynamic magnetic properties of NO Fe-Si steels
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