• 제목/요약/키워드: rare-earth 3d metal compound

검색결과 3건 처리시간 0.015초

Analysis of the Magnetic Properties of RFe11Ti and RFe11TiH (R=Tb,Ho)

  • Xu, S.W.;Yan, Y.;Jin, H.M.;Wang, X.F.;Wang, W.Q.;Su, F.
    • Journal of Magnetics
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    • 제8권4호
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    • pp.153-156
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    • 2003
  • The values of crystalline-electric-field parameters $A_{nm}$ for $RFe_{11}$Ti $H_{x}$ (R=Tb,Ho) (x=0,l) are obtained by fitting calculations to the magnetization curves along the crystal axes at 4.2 K and higher temperatures. The insertion of H element in RFe$_{11}$Ti significantly affects CEF parameters $A_{nm}$ . By using exchange field 2${\mu}$$_{B}$ $H_{ex}$ derived by inelastic neutron scattering and fitted $A_{nm}$ , the calculations reproduce the experimental curves well.

Hyper Duplex STS 중 Ce 첨가 시 비금속개재물 생성거동 (The Formation Behavior of Non-metallic Inclusion in the Ce-added Hyper Duplex STS)

  • 홍성훈;장필용;박영민;변선민;김광태;유병돈
    • 소성∙가공
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    • 제19권5호
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    • pp.311-319
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    • 2010
  • Rare earth metal Ce has a relatively low melting point and high specific gravity. Because of its significantly high affinity to oxygen, nitrogen and sulfur, it is highly usable as a steel refining agent. However, because Ce compound has relatively high specific gravity, it is difficult to be separated from molten steel through floatation, and it degrades the purity of molten steel, or may clog the nozzle in continuous casting. Such problem may be solved by using an appropriate deoxidation agent together with Ce and settling molten steel sufficiently after refining. Thus a fundamental study in the formation behavior of non-metallic inclusion in Ce added Hyper Duplex STS melts was investigated. The addition amount of Ce, melt temperature were considered as experimental variables. A main non-metallic inclusion in mother alloy is 51(wt%MnO) - 27.6(wt%SiO$_2$)- 10.9(wt%$Cr_2O_3$). Non-metallic inclusion was dramatically decreased and the particle size was fined as the amount of Ce increased. Moreover (%MnO) and (%SiO$_2$) of non-metallic inclusion were decreased. But (%$Al_2O_3$)were relatively increased. The number of non-metallic inclusion were decreased and the large particle size were increased by increasing the temperature of molten steel.

La7Os4C9의 전자구조와 화학결합 (Electronic Structure and Chemical Bonding of La7Os4C9)

  • 강대복
    • 대한화학회지
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    • 제53권3호
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    • pp.266-271
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    • 2009
  • 고체 화합물 La7Os4C9 속에 있는 [Os4C9]21‑ 사슬의 전자구조와 화학결합을 extended Hückel 계산 결과에 의해서 논의하였다. 탄소 원자는 물론 (C2)2‑ 분자의 결합 특성은 비교적 큰 Os-C 상호작용을 나 타내었고 특히 (C2)2‑ 분자의 결합길이 증가는 Fermi level 바로 아래에 Os-C2(1 πg) 결합 밴드의 존재로 인 해서 반결합 1πg 오비탈에 부분적인 전자점유가 일어나기 때문인 것으로 해석된다.