Structural and magnetic variations in Ba0.5Sr0.5Fe9Ce1Al2O19 hexaferrites at different sintering temperatures

Makhdoom, A. R.; Ranjha, Qasim A.; Ghori, Ubaid-ur-Rehman; Raza, Muhammad Ahsan; Raza, Binish; Mazhar, Muhammad; Rao, Komal Ali; Ahmed, Fahim; Asif, Sana Ullah; Khan, Muhammad Wasim; Nisa, Mehrun

doi:10.1088/1402-4896/ac3d4f

Cited by 14 publications

(7 citation statements)

References 51 publications

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“…The results showed that there were no secondary phases in the material and that the hexagonal shape of the particles was evident in the micrographs. The SEM images in figure 2 was also confirmed that the samples were homogenously and uniformly distributed [18,30]. Pores present in the images showed the removal of PVA binder.…”

Section: Morphological Analysissupporting

confidence: 58%

“…The magnetic properties of M-type hexaferrites can be altered by partially substituting Ba 2+ and/or Sr 2+ ions with rare Earth ions including La 3+ , Nd 3+ , and Ce 3+ etc [1-3, 10, 12-15, 24]. In addition to ion substitution, the magnetic properties of M-type hexaferrites can also be influenced by the sintering temperature [25][26][27][28][29][30][31].…”

Section: Introductionmentioning

confidence: 99%

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Structural and magnetic properties of BaFe_9.95Al₂Mg_0.05O₁₉tuned through sintering temperature

Asif,

Ranjha,

Ghori

et al. 2023

Phys. Scr.

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The sintering temperature is a key way to tune the structural and magnetic properties of M-type hexaferrites. Here the effect of sintering temperature on BaFe9.95Al2Mg0.05O19 M-type hexagonal Ba-hexaferrites was studied. X-ray diffraction analysis revealed the presence of Fe2O3 impurity phases in all samples. The results showed that as the sintering temperature increased, the saturation magnetization and remanence ratio initially increased, then decreased at higher temperatures. On the other hand, the coercivity and magnetocrystalline anisotropy field decreased first, then increased. The morphology suggested that average grain size consistently grew between 800-2800 nm with increasing temperature. The optimal magnetic properties of BaFe9.95Al2Mg0.05O19 were achieved at a sintering temperature of 1280 ℃, with saturation magnetization 49.94 emu/g, coercivity 4.99 kOe, anisotropic field 1.5kOe, and magnetic moment of 9.4097µB. The findings suggest that the magnetic properties of M-type hexagonal ferrites can be significantly enhanced by optimizing the sintering temperature, which has implications for the development of high-performance self-biased circulators, Magnetic filters, and other magnetic applications.

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Section: Morphological Analysissupporting

confidence: 58%

Section: Introductionmentioning

confidence: 99%

Structural and magnetic properties of BaFe_9.95Al₂Mg_0.05O₁₉tuned through sintering temperature

Asif,

Ranjha,

Ghori

et al. 2023

Phys. Scr.

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“…It was observed that negligible change was found in the grain size after the introduction of dopants. It implies that in the current scenario doping may involve miscellaneous shapes as compared to size [23]. The average grain size was observed from 500 to 2500 nm.…”

Section: Morphological Analysismentioning

confidence: 80%

Exploring the structural and magnetic trends in Ba_0.9Sm_0.1Fe_12−xAl_xO₁₉ M-type Hexaferrites

Asif¹,

Ranjha²,

Ghori³

et al. 2022

Phys. Scr.

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Current study describes the structural and magnetic properties of Ba0.9Sm0.1Fe12-xAlxO19 (x=0.0, 0.5, 1.0, 2.0, 3.0) M-type hexaferrites. Conventional ceramic route was implied to prepare all the nominal samples. Morphological analysis suggested the non-presence of secondary phases as well as formation of the hexaferrites material. X-ray Diffraction technique was used for structural analysis from which microstructural parameters are calculated and discussed. Magnetic properties are measured at room temperature. The saturation magnetization (Ms) and coercivity (Hc) values shows a cyclic and converse trend for synthesized samples. Firstly, a decrease in Ms and increase in Hc was observed up to intermediate dopant incorporation, and becomes converse for higher doping levels. The maximum coercivity and minimum magnetization is observed for Ba0.9Sm0.1Fe11Al1O19. The c/a and Mr/Ms ratio suggest the formation of perfect M-type hexaferrites. This work suggests that synthesized material is a good option for magnetic applications e.g., transformer and inductor cores, microwave devices, recording heads, and magnetic shielding.

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“…Few studies published have shown the importance and effects of sintering temperature on magnetic and structural properties of Hexa ferrites [27,28]. In our previous work we showed effects of different sintering temperature on magnetic properties of doped barium hexaferrites [29].…”

Section: Introductionmentioning

confidence: 73%

“…follow the JCPDS#43-0002. The results showed minor change in the intensity also upon the introduction of dopant [31][32][33]. Lattice parameters were obtained using reitveld refinement analysis.…”

Section: Structural Investigationsmentioning

confidence: 99%

Structural and magnetic conduct in Sm and Al substituted Ba_0.9Sm_0.1Fe₁₀Al₂O₁₉M-type hexaferrites at different sintering temperatures

et al. 2023

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The hexagonal ferrites with composition Ba0.9Sm0.1Fe10Al2O19 have been prepared by using the conventional solid state reaction method. The prepared samples were then sintered at different sintering temperatures to analyze the effects on the magnetic and structural properties of Barium hexaferrites. These samples were then characterized by using various techniques. For structural characterization, the X-ray diffraction technique was used. XRD results confirmed the phase pure hexagonal structure. SEM micrographs suggested the formation of hexaferrites material with homogenous distribution of particles. Magnetic properties showed that the saturation magnetization value was observed 48.55 emu/g and coercivity 5.01 KOe for the sample sintered at 1220 °C. As the sintering temperature rises, the values for magnetic saturation decrease to 46.24 emu/g, and coercivity increases up to 5.26 KOe at 1270 °C. Furthermore, some magnetic anisotropic parameters such as magnetocrystalline anisotropy constant (K), anisotropy parameter (B), and the anisotropy field (Ha) were also calculated at different sintering temperatures.

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Structural and magnetic variations in Ba_0.5Sr_0.5Fe₉Ce₁Al₂O₁₉ hexaferrites at different sintering temperatures

Cited by 14 publications

References 51 publications

Structural and magnetic properties of BaFe_9.95Al₂Mg_0.05O₁₉tuned through sintering temperature

Structural and magnetic properties of BaFe_9.95Al₂Mg_0.05O₁₉tuned through sintering temperature

Exploring the structural and magnetic trends in Ba_0.9Sm_0.1Fe_12−xAl_xO₁₉ M-type Hexaferrites

Structural and magnetic conduct in Sm and Al substituted Ba_0.9Sm_0.1Fe₁₀Al₂O₁₉M-type hexaferrites at different sintering temperatures

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Structural and magnetic variations in Ba0.5Sr0.5Fe9Ce1Al2O19 hexaferrites at different sintering temperatures

Cited by 14 publications

References 51 publications

Structural and magnetic properties of BaFe9.95Al2Mg0.05O19tuned through sintering temperature

Structural and magnetic properties of BaFe9.95Al2Mg0.05O19tuned through sintering temperature

Exploring the structural and magnetic trends in Ba0.9Sm0.1Fe12−xAlxO19 M-type Hexaferrites

Structural and magnetic conduct in Sm and Al substituted Ba0.9Sm0.1Fe10Al2O19M-type hexaferrites at different sintering temperatures

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Structural and magnetic variations in Ba_0.5Sr_0.5Fe₉Ce₁Al₂O₁₉ hexaferrites at different sintering temperatures

Structural and magnetic properties of BaFe_9.95Al₂Mg_0.05O₁₉tuned through sintering temperature

Structural and magnetic properties of BaFe_9.95Al₂Mg_0.05O₁₉tuned through sintering temperature

Exploring the structural and magnetic trends in Ba_0.9Sm_0.1Fe_12−xAl_xO₁₉ M-type Hexaferrites

Structural and magnetic conduct in Sm and Al substituted Ba_0.9Sm_0.1Fe₁₀Al₂O₁₉M-type hexaferrites at different sintering temperatures