Structural phases, magnetic properties and Maxwell-Wagner type relaxation of CoFe2O4/Sr2Co2Fe12O22 ferrite composites
| Title | Structural phases, magnetic properties and Maxwell-Wagner type relaxation of CoFe2O4/Sr2Co2Fe12O22 ferrite composites |
| Publication Type | Journal Article |
| Year of Publication | 2017 |
| Authors | Patel, CK, Solanki, NP, Singh, C, Jotania, RB, Chauhan, CC, Kulkarni, SD, Shirsath, SE |
| Journal | Materials Research Express |
| Volume | 4 |
| Issue | 7 |
| Pagination | Article Number: 076105 |
| Date Published | JUL |
| Type of Article | Article |
| Abstract | CoFe2O4 (S:Y-1:0) and Sr2Co2Fe12O22 (S:Y-0:1) ferrites were synthesized separately by using chemical coprecipitation technique and calcined at 1000 degrees C for 5 h. The mixed ferrite composites (S:Y-3:7, 4:6, 5:5, 6:4 and 7:3) were prepared by physical mixing of individual ferrite powders in required weight proportions. The prepared composites were heated at 1150 degrees C for 5 h in a muffle furnace and then slowly cooled to room temperature. The prepared ferrites were characterized using various instrumental techniques like FTIR, XRD, SEM, VSM and dielectric measurements. The x-ray diffraction studies of pure Sr2Co2Fe12O22 ferrite sample show the presence of M and Y-type hexagonal phases, while the composites consist of spinel and Y-type phases. FTIR spectra of all samples show two bands of Fe-O stretching vibrations. VSM results of composites reveal that the values of the saturation magnetization (M-s) vary from 50.44 emu g(-1) to 31.21 emu g(-1), while remanent magnetization values found from 11.18 emu g(-1) to 3.70 emu g(-1). A higher value of coercivity (H-c = 562 emu g(-1)) is observed in the composite S:Y-3:7 but Mr/Ms ratio of pure and composites is found to be less than 0.5. The dielectric behavior is explained using Maxwell-Wegner type interfacial polarization and N. Rezlescu's model. |
| DOI | 10.1088/2053-1591/aa7699 |
| Type of Journal (Indian or Foreign) | Foreign |
| Impact Factor (IF) | 0.968 |
Divison category:
Center for Material Characterization (CMC)
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