期刊
JOURNAL OF MATERIALS SCIENCE-MATERIALS IN ELECTRONICS
卷 28, 期 24, 页码 18815-18824出版社
SPRINGER
DOI: 10.1007/s10854-017-7831-4
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资金
- National Natural Science Foundation of China [21603040]
- Guangxi Natural Science Foundation of China [2016GXNSFDA380034, 2016GXNSFBA380062]
M-type hexagonal SrCo (x) Fe12-x O-19 (x = 0, 0.1, 0.2, and 0.3) have been synthesized by the ball-milling assisted ceramic process. The influence of Co substitutions on the crystalline structure, lattice strain, morphology, and magnetic behaviors has been investigated. The results show that a high-crystallized hexagonal SrCo (x) Fe12-x O-19 is obtained when the precursor is calcined at 950 A degrees C in air for 3 h. Lattice parameters and grain size of SrCo (x) Fe12-x O-19 increase with the increase in substitution content (x). Hysteresis behavior varies with substitution content (x) and calcination temperature. M-type hexagonal SrCo (x) Fe12-x O-19 (x = 0, 0.1, and 0.2), calcined at 950 A degrees C, with uniaxial anisotropy exhibits a broad M-H loop and rectangular shape. At higher calcination temperature (1050 and 1200 A degrees C) or substitution content (x) is equal to 0.3, the character of the hysteresis loop of SrCo (x) Fe12-x O-19 changes from hard into semi-hard. The trend of specific saturation magnetization of SrCo (x) Fe12-x O-19, calcined at 950 A degrees C, increases with the decrease in lattice strains. SrFe12O19, calcined at 950 A degrees C, has the highest specific saturation magnetization value (91.30 emu/g) and magnetic moment (17.36 A mu (B)). With the increase of calcination temperature, magnetic domain type of ferrites changes from a single magnetic domain to a multi-domain type.
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