Production of flaky amorphous powders in Fe-Zr-B system by a supercooled liquid quenching method, and their magnetic properties

Glassy Fe65Co10Ga5P12C4B4 alloy powders with a large supercooled liquid region of 50 K before crystallization were synthesized in the particle size range below 125 μm by Ar gas atomization. With the aim of developing a large-size Fe-based glassy core with good soft magnetic properties, the consolidation method of spark plasma sintering was applied to the Fe65Co10Ga5P12C4B4 glassy powders. The existence of the supercooled liquid region enabled us to form a large-size glassy alloy disc 20 mm in diameter and 5 mm in thickness with a high relative density of 99.7% at the glass-transition temperature of 723 K and under the external applied pressure of 300 MPa. The resulting glassy core of 18 mm in outer diameter, 10 mm in inner diameter, and 4 mm in thickness exhibits good soft magnetic properties: 1.20 T for saturation magnetization, 6 A/m for coercive force, and 8900 for maximum permeability. The good soft magnetic properties of the Fe-based bulk glassy core are attributed to the combination of the high relative density and the maintenance of the single glassy structure.

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Morphology and Magnetic Properties of Ferriferous Two-Phase Sodium Borosilicate Glasses

The Scientific World JOURNAL ◽

10.1155/2014/320451 ◽

2014 ◽

Vol 2014 ◽

pp. 1-7 ◽

Cited By ~ 6

Author(s):

Alexander Naberezhnov ◽

Nadezda Porechnaya ◽

Viktor Nizhankovskii ◽

Alexey Filimonov ◽

Bernard Nacke

Keyword(s):

Magnetic Properties ◽

Iron Oxides ◽

Channel Structure ◽

Borosilicate Glasses ◽

Melt Quenching ◽

Two Phase ◽

Furnace Charge ◽

Self Assembling ◽

Quenching Method ◽

Drop Structure

This contribution is devoted to the study of morphology and magnetic properties of sodium borosilicate glasses with different concentrations (15, 20, and 25 wt.%) ofα-Fe2O3in an initial furnace charge. These glasses were prepared by a melt-quenching method. For all glasses a coexistence of drop-like and two-phase interpenetrative structures is observed. The most part of a drop structure is formed by self-assembling iron oxides particles. All types of glasses demonstrate the magnetic properties and can be used for preparation of porous magnetic matrices with nanometer through dendrite channel structure.

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Magnetic behaviors of Ti50Zr33Ni17 quasicrystals measured by VSM

Zeitschrift für Kristallographie - Crystalline Materials ◽

10.1524/zkri.2009.1071 ◽

2009 ◽

Vol 224 (1-2) ◽

Cited By ~ 2

Author(s):

Yunman Lee ◽

Jae-kyun Jeon ◽

Hyemin Shin ◽

Jae-yong Kim

Keyword(s):

Magnetic Properties ◽

Spin Glass ◽

Rapid Quenching ◽

Aperiodic Structure ◽

Quenching Method ◽

Magnetic States

AbstractQuasicrystals made with Ti, Zr and Ni are good candidate materials studying the magnetic properties of aperiodic structure because the role of Ni in stabilization of the quasicrystal phase is important. Various magnetic states in quasicrystals have been reported including diamagnetism, paramagnetism, spin glass, ferromagnetism and ferrimagnetism. We prepared Ti–Zr–Ni quasicrystals by rapid quenching method. The magnetization (

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Magnetic properties of Co/sub 70.4/Fe/sub 4.6/Si/sub 15/B/sub 10/ surfactant assisted ball milled amorphous powders

IEEE Transactions on Magnetics ◽

10.1109/20.104916 ◽

1990 ◽

Vol 26 (5) ◽

pp. 1840-1842 ◽

Cited By ~ 13

Author(s):

W.A. Kaczmarek ◽

R. Bramley ◽

A. Calka ◽

B.W. Ninham

Keyword(s):

Magnetic Properties ◽

Amorphous Powders ◽

Surfactant Assisted

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Formation of Co–Fe–M–B (M=Zr, Ti) amorphous powders by mechanical alloying and their magnetic properties

Journal of Alloys and Compounds ◽

10.1016/j.jallcom.2008.07.195 ◽

2009 ◽

Vol 483 (1-2) ◽

pp. 553-556 ◽

Cited By ~ 14

Author(s):

Hsin-Ming Wu ◽

Chia-Jung Hu ◽

Hsing-Ching Li

Keyword(s):

Magnetic Properties ◽

Mechanical Alloying ◽

Amorphous Powders

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Influences of the Adding Manners of b on the Stability and the Soft Magnetic Properties of Amorphous Fe52Co34Hf7B6Cu1 Alloys

Applied Mechanics and Materials ◽

10.4028/www.scientific.net/amm.320.83 ◽

2013 ◽

Vol 320 ◽

pp. 83-87 ◽

Cited By ~ 1

Author(s):

Yue Gu ◽

Yue Sheng Chao

Keyword(s):

Activation Energy ◽

Magnetic Properties ◽

Amorphous State ◽

Soft Magnetic Property ◽

Soft Magnetic Properties ◽

Soft Magnetic ◽

Transmission Electron ◽

The Matrix ◽

Quenching Method ◽

The Stability

The stability and the soft magnetic properties of amorphous Fe52Co34Hf7B6Cu1 alloys have been investigated in this paper. Amorphous Fe52Co34Hf7B6Cu1 alloys ribbons are prepared by single-roller-quenching method. The differential thermal analysis (DTA), X-ray diffraction (XRD), Mössbauer Spectroscopy, transmission electron microscope (TEM) and vibrating sample magnetometer (VSM) were used for characterizing microstructures, soft magnetic properties, and evaluating the influence of adding manners of B on the stability of as-quenched specimens. The XRD curve shows a wide dispersion of peak, the TEM diffraction ring was dispersed cyclic, the pattern of the matrix was homogeneous, and the Mössbauer spectrum of as-quenched alloy presents a typical broadened and overlapped sextet, which confirms the as-quenched alloy in fully amorphous state. The DTA results showed the activation energy of Fe52Co34Hf7B6Cu1 alloy is 299.7KJ/mol. When pure B is replaced by FeB in preparing amorphous Fe52Co34Hf7B6Cu1 alloys, the activation energy reduced to 293.3 KJ/mol,and the soft magnetic property is decline according VSM results.

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Formation of Ni57Zr20Ti22Pb1 Amorphous Powders by Mechanical Alloying

Materials Science Forum ◽

10.4028/www.scientific.net/msf.539-543.2767 ◽

2007 ◽

Vol 539-543 ◽

pp. 2767-2772

Author(s):

Pee Yew Lee ◽

S.S. Hung ◽

Jason S.C. Jang ◽

Giin Shan Chen

Keyword(s):

Thermal Stability ◽

Supercooled Liquid ◽

Supercooled Liquid Region ◽

Liquid Region ◽

X Ray Diffraction ◽

Mechanically Alloyed ◽

Atomic Size ◽

X Ray ◽

Amorphous Powders ◽

Thermal Stability Of

In the current study, the amorphization behavior of mechanically alloyed Ni57Zr20Ti22Pb1 powder was examined in details. The conventional X-ray diffraction results confirm that the fully amorphous powders formed after 5 hours of milling. The thermal stability of the Ni57Zr20Ti22Pb1 amorphous powders was investigated by differential scanning calorimeter (DSC). As the results demonstrated, the glass transition temperature (Tg) and the crystallization temperature (Tx) are 760 K and 850 K, respectively. The supercooled liquid region is 90 K. The appearance of wide supercooled liquid region may be mainly due to the Pb additions which cause the increasing differences in atomic size of mechanically alloyed Ni57Zr20Ti22Pb1 powders.

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