V.P. Piskorsky scite author profile

The article provides the analysis of PrDyFeCoB magnetic microstripes prepared by extracting material from a melt on a rotating cooling disk. The phases 2-14-1, 1-4-1 and 1-2, α-FeСо were verified in the samples. The division of a hysteresis loop into two strands shows that the coercive field of the α-FeСо phase (500–700 Oe) determines the width of the hysteresis loop near the zero field, while the coercive field of the 2-14-1 phase (10 kOe) corresponds to lateral hysteresis loops. The saturation magnetization increases by 25% with an increase in the disk rotation speed by 3 times together with correspondent acceleration of the cooling rate. This is due to the increase in the proportion of the soft magnetic phase α-FeCo and the increase in the proportion of the amorphous phase with a decrease in the proportion of the main magnetic phase 2-14-1. Strip domains and their dynamics during magnetization were detected using Kerr magneto-optical microscopy.

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The effect of aluminum on the magnetic properties of sintered materials Nd–Fe–Co–B

Каблов¹,

Оспенникова²,

Королев³

et al. 2015

AMaT

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Influence of Cu content to phase structure and magnetic properties of thermostable sintered magnets of Nd–Dy–Fe–Co–B and Pr–Dy–Fe–Co–B systems

Каблов¹,

Оспенникова²,

Cherednichenko³

et al. 2015

AMaT

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V.P. Piskorsky

Development of melting technology of high pure REM–Fe–Co–B alloys for temperature-stable magnets

Phase composition of the Pr–Dy–Fe–Co–B sintered materials

MAGNETIC PROPERTIES AND MAGNETIC STRIP DOMAINS IN MICRO STRIPES PrDyFeCoB

The effect of aluminum on the magnetic properties of sintered materials Nd–Fe–Co–B

Influence of Cu content to phase structure and magnetic properties of thermostable sintered magnets of Nd–Dy–Fe–Co–B and Pr–Dy–Fe–Co–B systems

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