Nd 2 O 3 첨가에 따른 Mn-Zn ferrite의 고주파 특성에 관한 연구

최우성; U-Sung Choi

Korean Journal of Materials Research, Vol.13, No.4, 228-232, April, 2003

DOI10.3740/MRSK.2003.13.4.228 Export Citation

Nd 2 O 3 첨가에 따른 Mn-Zn ferrite의 고주파 특성에 관한 연구

A Study on the high frequency properties of Mn-Zn ferrite with Nd 2 O 3 addition

최우성^†

원광대학교 전기전자 및 정보공학부

U-Sung Choi^†

Department of electrical electronic and information engineering, Wonkwang Univ., Korea

E-mail:

The effects of Nd 2 O 3 addition on the properties of Mn-Zn ferrite were investigated in the doping concentration range from 0.05 to 0.25 wt%. All samples were prepared by standard fabrication of ferrite ceramics. With increasing the Neodymium oxides, specific density and initial permeability increased on the whole. But, the tendencies such as upper result had the measured value on limitation and characteristics saturated or decreased properties after that. With increasing the content of Neodymium oxides. both the real and imaginary component of complex permeability and the magnetic loss(tan δ ) increased. Because reason that magnetic loss increases is high ratio that a real department increases than imaginary department. Magnetic loss increased none the less for increasing the real department related with magnetic permeability. But, the magnetic loss of ferrite doped with the Neodymium oxides were lower than that of none doped Mn-Zn ferrite. The small amount of percent Neodymium oxides in Mn-Zn ferrite composition led to enhancement of resistivity in bulk, and more so in the grain boundary.

Keywords:ferrite;permeability;magnetic loss;Neodymium oxides

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[1] Amer MA, Phys. Stat. Sol., 151(205), 205 (1995)

[2] Hiratsuka N, Kakizaki K, Kobayashi H, J. J. S of Power and Power Metallurgy, 45(1), 86 (1998)

[3] Snelling EC, 'Soft ferrites properties and application', Buttorworth & Co. Ltd, p. 4 (1988) (1988)

[4] Arcos D, Zquez MV, Valenzuela R, Vallet-Regl M, J. Mater. Res., 14(3), 861 (1999)

[5] Kim JS, Journal of the Korean Ceramic Society, 36(3), 255 (1999)

[6] Moon HW, Seo KS, Choi HT, Shin YJ, KIEEME, 3(3), 205 (1990)

[7] Seo JJ, Shin MS, Han YH, M. R. S. K., 5(8), 1026 (1995)

[8] Asai K, Fujiyoshi K, Nishimori N, Satoh Y, Kobayashi Y, Mizoguchi M, J. of the Phy. Soc. Ja., 67(12), 4218 (1998)

[9] Rezlescu E, Rezlescu N, Popa PD, Rezlescu L, Pasnicu C, Phys. State. Sol., 162(673), 673 (1997)

[10] Jung SW, Kim TW, Jeon ST, Myung TH, Choi US, Korean Journal of Materials Research, 10(6), 430 (2000)

[11] Jung SW, Kim TW, Choi WS, KIEEME, 13(10), 887 (2000)

[12] Kim KY, Kim WS, Kang SM, Jung HJ, 28(7), 556 (1991) (1991)