Critical phenomenon in soft magnetic properties of giant magnetostrictive materials: Computer simulation

被引:0
|
作者
Fukunaga, Hirotoshi [1 ]
Yamaguchi, Takayuki [1 ]
机构
[1] Graduate School of Science and Technology, Nagasaki University, Nagasaki 852, Japan
来源
Journal of Applied Physics | 2006年 / 99卷 / 08期
关键词
Dependence of magnetostrictive and magnetic properties on grain size was calculated numerically for an isotropic giant magnetostrictive material. The model magnet assumed is composed of 8000 cubic (Tb0.3 Dy0.7) Fe2 grains. The direction of magnetization and the magnetostriction of each grain was determined for a given applied field under the consideration of the anisotropy; exchange; magnetoelastic; elastic; and Zeeman energies. Subsequently; the hysteresis loop and the magnetostriction versus applied field curve was obtained by varying the applied field. With decreasing the grain size D; the coercivity Hc and dλdH; where λ is the magnetostriction; decreased abruptly at D=25 nm. This improvement in soft magnetic properties exceeded the expected improvement from Herzer's calculation; in which Hc was proportional to D6. In order to study the significant improvement in detail; we calculated magnetic and magnetostrictive properties with varying magnetostriction and anisotropy constants. Resultantly; it was clarified that the critical phenomenon occurs when the total of elastic and magnetoelastic energies exceed the magnetic anisotropy energy in magnitude. © 2006 American Institute of Physics;
D O I
暂无
中图分类号
学科分类号
摘要
Journal article (JA)
引用
收藏
相关论文
共 50 条
  • [31] Magnetic properties and applications of nanostructured soft magnetic materials
    Yoshizawa, Y
    SCRIPTA MATERIALIA, 2001, 44 (8-9) : 1321 - 1325
  • [32] Structure inhomogeneities and magnetic properties of soft magnetic materials
    Dragoshanskij, Yu.N.
    Gubernatorov, V.V.
    Sokolov, B.K.
    Ovchinnikov, V.V.
    Doklady Akademii Nauk, 2002, 383 (06) : 761 - 764
  • [33] Effect of external stresses on the surface magnetic properties of magnetostrictive amorphous materials
    Tejedor, M
    García, JA
    Carrizo, J
    Elbaile, L
    Santos, JD
    JOURNAL OF MAGNETISM AND MAGNETIC MATERIALS, 1999, 196 : 35 - 36
  • [34] Magnetic properties of polydisperse ferrofluids: A critical comparison between experiment, theory, and computer simulation
    Ivanov, Alexey O.
    Kantorovich, Sofia S.
    Reznikov, Evgeniy N.
    Holm, Christian
    Pshenichnikov, Alexander F.
    Lebedev, Alexander V.
    Chremos, Alexandros
    Camp, Philip J.
    PHYSICAL REVIEW E, 2007, 75 (06)
  • [35] Critical properties of nanoparticles of magnetic materials
    Murtazaev, AK
    Kamilov, IK
    Aliev, KK
    Khizriev, KS
    MAGNETIC AND SUPERCONDUCTING MATERIALS, (MSM-99), VOLS A AND B, 2000, : 899 - 902
  • [36] Experiment on nonlinear properties coupling electromagnetism with mechanics of giant rare earth magnetostrictive materials
    Yuan, HQ
    Sun, HG
    JOURNAL OF RARE EARTHS, 2004, 22 : 159 - 162
  • [37] The magneto-mechanic hysteresis model for giant magnetostrictive materials based on the magnetic domain theory
    Gong, Cheng
    Jin, Ke
    Kou, Yong
    JOURNAL OF APPLIED PHYSICS, 2023, 133 (12)
  • [38] Three-point bending fatigue of cracked giant magnetostrictive materials under magnetic fields
    Narita, Fumio
    Shikanai, Koji
    Shindo, Yasuhide
    Mori, Kotaro
    ACTA MECHANICA, 2017, 228 (11) : 3867 - 3876
  • [39] Computer simulation of hard magnetic composite materials Nd-Fe-B properties
    Dobrzanski, L. A.
    Drak, M.
    Trzaska, J.
    JOURNAL OF MATERIALS PROCESSING TECHNOLOGY, 2007, 192 : 595 - 601
  • [40] COMPUTER-SIMULATION OF PENETRATION IN MATERIALS IN SOFT ARMOR PLATES
    LANDA, BP
    OLIVARES, FH
    JOURNAL DE PHYSIQUE, 1988, 49 (C-3): : 613 - 618
12345