• Title/Summary/Keyword: amorphous magnetic materials

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Effect of Shape Magnetic Anisotropy of Amorphous Fe-B-P Nanoparticles on Permeability

  • Lee, Ji Eun;Tsedenbal, Bulgan;Koo, Bon Heun;Huh, Seok Hwan
    • Korean Journal of Materials Research
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    • v.30 no.11
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    • pp.589-594
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    • 2020
  • Many electronic applications require magnetic materials with high permeability and frequency properties. We improve the magnetic permeability of soft magnetic powder by controlling the shape magnetic anisotropy of the powders and through the preparation of amorphous nanoparticles. For this purpose, the effect of the shape magnetic anisotropy of amorphous Fe-B-P nanoparticles is observed through a magnetic field and the frequency characteristics and permeability of these amorphous nanoparticles are observed. These characteristics are investigated by analyzing the composition of particles, crystal structure, microstructure, magnetic properties, and permeability of particles. The composition, crystal structure, and microstructure of the particles are analyzed using inductively coupled plasma optical emission spectrometry-, X-ray diffraction, scanning electron microscopy and focused ion beam analysis. The saturation magnetization and permeability are measured using a vibrating sample magnetometer and an LCR meter, respectively. It is confirmed that the shape magnetic anisotropy of the particles influences the permeability. Finally, the permeability and frequency characteristics of the amorphous Fe-B-P nanoparticles are improved.

ICOSAHEDRAL CLUSTERS AND MAGNETIC PROPERTIES OF $LaCo_{13}$ AMORPHOUS AND CRYSTALLINE ALLOYS

  • Fukamichi, K.;Fujita, A.;Ohashi, N.;Hashimoto, M.;Matsubara, E.;Waseda, Y.
    • Journal of the Korean Magnetics Society
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    • v.5 no.5
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    • pp.767-771
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    • 1995
  • The atomic structure and magnetic properties of $LaCo_{13}$ amorphous alloy have been investigated and compared with those of its crystalline counterpart. It has been confirmed that the amorphous alloy is composed of the icosahedral clusters with a $NaZn_{13}$-type structure. The magnetic moment and the spin- wave stiffness constant obtained from the magnetic measurements in the amorphous state are larger than those in the crystalline state. The Curie temperature estimated from the reduced magnetization curve for the former is much higher than the value for the latter. The localized magnetic moment character in the amorphous state is stronger than that in the crystalline state.

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Magnetic resonance study on boron substituted amorphous FeZrMn alloys

  • A.N.Ulyanov;Tian, Sheng-Bo;Kim, Kyeong-Sup;V.Srinivas;Yu, Seong-Cho
    • Proceedings of the Korean Magnestics Society Conference
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    • 2003.06a
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    • pp.90-91
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    • 2003
  • Amorphous magnetic materials with competing magnetic interactions are the subject of current interest. Critical behaviour studies have been performed in order to understand the nature of the phase transition at the Curie point (T$\sub$c/) and type of magnetic ordering below the T$\sub$c/. In some cases there exists a temperature interval in which the magnetic system consists of ferromagnetic grains separated by the paramagnetic interlayers. Magnetic properties of nanoparticles embedded in amorphous matrix also are the subject of recent interest. While these materials exhibit excellent soft magnetic properties at room temperature, some of them have been found to be superparamagnetic in the temperature range above the T$\sub$c/ of the matrix. Thus the role of different magnetic phases in the intergrain magnetic coupling can possibly be taken apart in a sufficiently broad temperature range and investigated separately. In particular materials with competing magnetic exchange interactions show characteristics of enhanced magnetoresistance and softer magnetic properties when magnetic nanocrystals are dispersed in amorphous matrix. We expect careful magnetic measurements in the vicinity of T$\sub$c/ would throw some light on magnetic behaviour of above materials. We present here the FMR analysis of Fe$\sub$82/Mn$\sub$8-x/B$\sub$x/Zr$\sub$10/ alloy near the Curie point.

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Magneto-Impedance Effect of Zeromagnetostrictive Amorphous Films (영자왜 아몰퍼스 박막의 자기-임피던스 효과)

  • 서강수;임재근;김대주;신용진
    • Proceedings of the Materials Research Society of Korea Conference
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    • 1997.05a
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    • pp.38-38
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    • 1997
  • In the paper, we investigate the magneto-impedance(MI) effect of the Fe-Co-B Amorphous magnetic film, the amorphous magnetic film having near zero magnetostostriction is fabricated by using the sputtering methode, and then annealed in magnetic field. When the external magnetic field is directly applied to the fabricated film, the voltage amplitude between both side of the magnetic film varies about 22% at 10[MHz] and the impedance varies about 21% at 10[Oe]. Thus, we find that the fabricated magnetic film has the characteristics of high-quality sensor element.

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Microstructure and Magnetic Characteristics of Mn-doped Finemet Nanocomposites

  • Le, Anh-Tuan;Kim, Chong-Oh;Chau Nguyen;Tho Nguyen Duc;Hoa Nguyen Quang;Lee, Hee-Bok
    • Journal of Magnetics
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    • v.11 no.1
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    • pp.30-35
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    • 2006
  • A thorough study about the influences of Mn substitution for Fe on the microstructure and magnetic characteristics of $Fe_{73.5-x}Mn-{x}Si_{13.5}B_{9}Nb_{3}Cu_1$ (x = 1, 3, 5) alloys prepared by the melt-spinning technique has been performed. Nanocomposites composed of nanoscale $(Fe,Mn)_{3}Si$ magnetic phase embedded in an amorphous matrix were obtained by annealing their amorphous alloys at $535^{\circ}C$ for 1 hour. The addition of Mn causes a slight increase in the mean grain size. The Curie temperatures of the initial amorphous phase and of the nanocrystals phase decreased, while the Curie temperature of the remaining amorphous phase remained nearly constant with increasing Mn content. Soft magnetic properties of the crystallized samples have been significantly improved by a proper thermal treatment. Accordingly, the giant magnetoimpedance effect is observed and ascribed to the increase of the magnetic permeability, and the decrease of the coercivity of the samples. The increased magnetic permeability is resulted from a decrease in the magnetocrystalline anisotropy and saturation magnetostriction.

Magnetic Field Distribution of Power Line Using Amorphous Wire (아몰포스선을 이용한 전력선의 자계분포)

  • Moriyama, T.;Cho, M.W.;Hikita, M.;Hong, J.W.
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2001.07a
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    • pp.609-612
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    • 2001
  • To investigate the magnetic field distribution of power line, we used amorphous wire sensor. And we discuss extremely low frequency magnetic field distribution dependent upon arrangement of power line and shielding pipe made from iron or alumimum materials by both measurement and FEM(Finite Element Method) analysis. Appling current of single phase 60 [Hz] 15 [A] is supplied to copper wire coated enamel resign. As the results, we confirmed that linear characteristics of amorphous wire sensor is very excellent and measurement value agrees with FEM calculation. Magnetic field distribution due to shielding materials is changed by permeability and conductivity.

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Magnetic Properties and Crystallization of Co-pt Amorphous Metallic Alloys

  • Yoo, Chung-Sik;Lim, Sung-K.;Yoon, C.S.;Kim, C.K.
    • Journal of Magnetics
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    • v.8 no.3
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    • pp.113-117
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    • 2003
  • $Co_{78-x}Pt_xB_{10}Si_{12}$ alloys were produced using the melt-spin process in order to study the crystallization behavior and ensuing magnetic properties of the $Co_{78-x}Pt_xB_{10}Si_{12}$ (Co-Pt) amorphous alloys as a function of the Pt content. We showed that when $\chi$ $>$ 15 well below its stoichiometric composition, CoPt crystallized in the amorphous alloy, thus greatly altering the crystallized microstructure and magnetic properties during annealing. Below this composition, the main crystallization product was Co with Pt dissolved in its lattice. In spite of the nucleation of CoPt with high magnetic anisotropy, the highest coercivity was obtained when x was 15. It was also concluded that the Pt addition deteriorated the glass stability, triggering the devitrification at a progressively lower temperature.

Alternating Magnetic Field Crystallization of Amorphous Si Films

  • Kang, K.H.;Park, S.H.;Lee, S.J.;Nam, S.E.;Kim, H.J.
    • Journal of Information Display
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    • v.4 no.1
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    • pp.34-37
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    • 2003
  • We investigate the solid phase crystallization of amorphous Si films on glass substrates under alternating magnetic field induction. The kinetics of crystallization are found to be greatly enhanced by alternating magnetic field. While complete crystallization takes heat treatment of more than 14 hours at 570$^{\circ}C$, it can be reduced by applying the megnetic field to 20 minutes. It is assumed that the enhancement of crystallization is associated with an electromotive force voltage generated by alternating magnetic field. This electric field applied in the amorphous Si may possibly be the reason for acceleration of the atomic mobility of crystallization through the modification of atomic potentials

Development of Hybrid Insulating Coating for Fe-based Soft Magnetic Powder (철계 연자성 분말용 하이브리드 절연 코팅막 개발)

  • Kim, Jungjoon;Kim, Sungyeom;Kim, Youngkyun;Jang, Taesuk;Kim, Hwi-jun;Kim, Youngjin;Choi, Hyunjoo
    • Journal of Powder Materials
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    • v.28 no.3
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    • pp.233-238
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    • 2021
  • Iron-based amorphous powder attracts increasing attention because of its excellent soft magnetic properties and low iron loss at high frequencies. The development of an insulating layer on the surface of the amorphous soft magnetic powder is important for minimizing the eddy current loss and enhancing the energy efficiency of high-frequency devices by further increasing the electrical resistivity of the cores. In this study, a hybrid insulating coating layer is investigated to compensate for the limitations of monolithic organic or inorganic coating layers. Fe2O3 nanoparticles are added to the flexible silicon-based epoxy layer to prevent magnetic dilution; in addition TiO2 nanoparticles are added to enhance the mechanical durability of the coating layer. In the hybrid coating layer with optimal composition, the decrease in magnetic permeability and saturation magnetization is suppressed.

Magneto-Impedance Effect of CoFeSiBNi Amorphous Magnetic Films according to the size (CoFeSiBNi 아몰퍼스 합금의 소자 크기에 대한 자기-임피던스 효과 관찰)

  • Park, Byung-Kyu;Hwang, Sung-Woo;Moon, Sung
    • Proceedings of the Korean Institute of Electrical and Electronic Material Engineers Conference
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    • 2007.06a
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    • pp.339-341
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    • 2007
  • Soft ferromagnetic materials are very useful for many sensors using magnetic materials with high permeability, low coercivity and low hysteresis loss. Among them, FeCoSiBNi amorphous magnetic films show us a good impedance change(about 3.05%/Oe, at 12MHz) by the exterior magnetic field in this experiment. These are produced by rapid solidification from the melt and the material is ejected in a jet from a nozzle and quenched in a stream of liquid. After that, we make them a shape of wire with different sizes of width. Thus, we can find that the impedance change (122.16%, at 12MHz) is occurred and the fabricated magnetic wire has the characteristics of good sensor element.

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