Microstructural evolution and its influence on the magnetic properties of CoFe2O4 powders during mechanical milling
A high coercivity of up to 5.1 kOe was induced in a large-grained CoFe2O4 powder after milling for a short time (1.5 h). It was found that the initial grain (particle) size played an important role in the microstructural evolution and in the magnetic properties of the milled CoFe2O4 materials. The m...
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sg-ntu-dr.10356-971772023-07-14T15:54:15Z Microstructural evolution and its influence on the magnetic properties of CoFe2O4 powders during mechanical milling Boothroyd, C. B. Yin, J. H. Yi, J. B. Liu, Bing Hai Ding, Jun Dong, Zhili School of Materials Science & Engineering DRNTU::Engineering::Materials::Magnetic materials A high coercivity of up to 5.1 kOe was induced in a large-grained CoFe2O4 powder after milling for a short time (1.5 h). It was found that the initial grain (particle) size played an important role in the microstructural evolution and in the magnetic properties of the milled CoFe2O4 materials. The milling-induced microstructural evolution was analyzed using x-ray diffraction and transmission electron microscopy. The results indicated that the milling-induced high coercivity was associated with the highly-strained and defective microstructure. The enhancement in magnetic anisotropy was observed in large-grained CoFe2O4 after milling, which might be mainly attributed to the stress anisotropy. In order to understand the coercivity mechanisms, detailed magnetic studies were carried out by the investigation of the field-dependent magnetization (demagnetization) behaviors and the magnetization reversal processes based on both the micromagnetic model and the phenomenological model. The results revealed that a domain wall pinning-controlled mechanism was responsible for the milling-induced high coercivity in CoFe2O4 materials. Published version 2011-07-13T04:24:25Z 2019-12-06T19:39:50Z 2011-07-13T04:24:25Z 2019-12-06T19:39:50Z 2006 2006 Journal Article Liu, B. H., Ding, J., Dong, Z. L., Boothroyd, C. B., Yin, J. H. & Yi, J. B. (2006). Microstructural evolution and its influence on the magnetic properties of CoFe2O4 powders during mechanical milling. Physical Review B, 74. https://hdl.handle.net/10356/97177 http://hdl.handle.net/10220/6891 10.1103/PhysRevB.74.184427 en Physical review B © 2006 American Physical Society. This paper was published in Physical Review B and is made available as an electronic reprint (preprint) with permission of American Physical Society. The paper can be found at: [DOI: http://dx.doi.org/10.1103/PhysRevB.74.184427]. One print or electronic copy may be made for personal use only. Systematic or multiple reproduction, distribution to multiple locations via electronic or other means, duplication of any material in this paper for a fee or for commercial purposes, or modification of the content of the paper is prohibited and is subject to penalties under law. 10 p. application/pdf |
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DRNTU::Engineering::Materials::Magnetic materials Boothroyd, C. B. Yin, J. H. Yi, J. B. Liu, Bing Hai Ding, Jun Dong, Zhili Microstructural evolution and its influence on the magnetic properties of CoFe2O4 powders during mechanical milling |
| description |
A high coercivity of up to 5.1 kOe was induced in a large-grained CoFe2O4 powder after milling for a short time (1.5 h). It was found that the initial grain (particle) size played an important role in the microstructural evolution and in the magnetic properties of the milled CoFe2O4 materials. The milling-induced microstructural evolution was analyzed using x-ray diffraction and transmission electron microscopy. The results indicated that the milling-induced high coercivity was associated with the highly-strained and defective microstructure. The enhancement in magnetic anisotropy was observed in large-grained CoFe2O4 after milling, which might be mainly attributed to the stress anisotropy. In order to understand the coercivity mechanisms, detailed magnetic studies were carried out by the investigation of the field-dependent magnetization (demagnetization) behaviors and the magnetization reversal processes based on both the micromagnetic model and the phenomenological model. The results revealed that a domain wall pinning-controlled mechanism was responsible for the milling-induced high coercivity in CoFe2O4 materials. |
| author2 |
School of Materials Science & Engineering |
| author_facet |
School of Materials Science & Engineering Boothroyd, C. B. Yin, J. H. Yi, J. B. Liu, Bing Hai Ding, Jun Dong, Zhili |
| format |
Article |
| author |
Boothroyd, C. B. Yin, J. H. Yi, J. B. Liu, Bing Hai Ding, Jun Dong, Zhili |
| author_sort |
Boothroyd, C. B. |
| title |
Microstructural evolution and its influence on the magnetic properties of CoFe2O4 powders during mechanical milling |
| title_short |
Microstructural evolution and its influence on the magnetic properties of CoFe2O4 powders during mechanical milling |
| title_full |
Microstructural evolution and its influence on the magnetic properties of CoFe2O4 powders during mechanical milling |
| title_fullStr |
Microstructural evolution and its influence on the magnetic properties of CoFe2O4 powders during mechanical milling |
| title_full_unstemmed |
Microstructural evolution and its influence on the magnetic properties of CoFe2O4 powders during mechanical milling |
| title_sort |
microstructural evolution and its influence on the magnetic properties of cofe2o4 powders during mechanical milling |
| publishDate |
2011 |
| url |
https://hdl.handle.net/10356/97177 http://hdl.handle.net/10220/6891 |
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1772826854035554304 |