Study of Structural and Magnetic Properties for Hybrid Compounds of "X(SrFe12O19) + (1-X) (BiFeO3)"
Volume 5, Issue 1, March 2020, Pages: 5-9
Received: Jan. 29, 2020;
Accepted: Feb. 10, 2020;
Published: May 28, 2020
Views 240 Downloads 73
Pedro Antonio Marinho-Castellanos, Department of Physics, University of Holguin, Holguin, Cuba
Arles Vega-Garcia, Department of Physics, University of Holguin, Holguin, Cuba
Julio Cesar Velazquez-Infante, Arid Agroecosystem Studies Center, University of Holguin, Holguin, Cuba
Yadira Marinho-Del Toro, Minagri Training and Overcoming Center, Santiago de Cuba, Cuba
Braddy Ivan Jimenez-Morales, Physics Institute, Kazan Federal University, Kazan, Russian Federation; Department of Physics, University of Camagüey, Camagüey, Cuba
Joaquin Matilla-Arias, Department of Basic Sciences and Applied Informatics, University of Granma, Granma, Cuba
Follow on us
A structural and magnetic study of the system X(SrFe12O19) + (1-X) (BiFeO3) with X=0, 0.20, 0.40, 0.50, 0.60, 0.80 and 1.0 is presented in this work. The individual phases were obtained by the Sol-Gel method. The powders were mixed by mechanical grinding, then pressed and sintered. Experimental techniques of X-ray diffraction and vibrational magnetometry were used for the characterization of the samples and the Hanawalt method and the Match! Phase Identification from Powder Diffraction were used for the qualitative determination of the phases present in each sample. Rietveld's analysis was carried out with the FullProf Suite-2008 program. The structural results obtained show slight variations of the crystal lattice parameters for both phases and the coexistence of both phases in each sample. The magnetic characterization shows a linear increase of the saturation magnetization, the remanent magnetization and the magnetic anisotropy constant K1, as a function of the concentration of the BiFeO3 and SrFe12O19 phases. A satisfactory congruence is observed between the theoretical predictions and the experimental measurements, an indication that the magnetic parameters reported are due to the superposition, in each compound, of their individual values. Both the XRD pattern and the structural and magnetic characterization show that the two phases coexist individually in the matrix and have a good chemical compatibility between them.
Sol-Gel Methods, Magnetic Properties, Hexaferrite, Theoretical Predictions, Rietveld Refinement
To cite this article
Pedro Antonio Marinho-Castellanos,
Julio Cesar Velazquez-Infante,
Yadira Marinho-Del Toro,
Braddy Ivan Jimenez-Morales,
Study of Structural and Magnetic Properties for Hybrid Compounds of "X(SrFe12O19) + (1-X) (BiFeO3)", Engineering Science.
Vol. 5, No. 1,
2020, pp. 5-9.
Copyright © 2020 Authors retain the copyright of this article.
This article is an open access article distributed under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/
) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
J. Jiang, L. H. Ai; Journal of Alloys and Compounds 502 (2010) 488–490.
M. A. Ahmed, S. F. Mansour, H. Ismael; Journal of Magnetism and Magnetic Materials 378 (2015) 376–388.
A. A. Nourbakhsh, A. Vahedi, A. Nemati, M. Noorbakhsh, S. N. Mirsatari, M. Shaygan, K. J. D. Mackenzie; Ceramics Internacional 40 (2014) 5675-5680.
S. S. Ashima, R. Ashish Aganval, Monica Neetu Ahlawat; Journal of Applied Physics 112 (2012) 014110.
G. Tan, X. Chen; Journal of Electronic Materials 42 (5) (2013).
J. K. Kim, S. S. Kim, W-J. Kim; Materials Letters 59 (2005) 4006 – 4009.
A. Singh, V. Singh, K. K. Bamzai; Materials Chemistry and Physics 155 (2015) 92-98.
T-J Park, G. C. Papaefthymiou, A. J. Viescas, Y. Lee, H. Zhou, S. S. Wong; PHYSICAL REVIEW B 82 (2010) 024431.
D. Pandey, A. Singh; Bulletin Materials Science; 32 (3) (2009) 361–367.
P. A Mariño-Castellanos, A. C. Moreno-Borges, G. OrozcoMelgar, J. A. García and E. Govea-Alcaide, Physica B: Condensed Matter 406 (2011) 3130–3136.
J. Matilla-Arias, E. Govea-Alcaide, P. Mariño-Castellanos, F. Rosales-Saiz; J Supercond Nov Magn 31 (2018) 251–256.
J. Matilla-Arias, E. Govea-Alcaide, P. Mariño-Castellanos, F. Rosales-Saiz, I. F. Machado, K. Montero-Rey, J Supercond Nov Magn (2019) 152-158.
P. A. Mariño-Castellanos, A. Vega-García, E. Fernández-Cruz, B. I. Jimenez-Morales; American Journal of Engineering and Technology Management. Vol. 4, No. 6, 2019, pp. 83-90.
M. A. Almessiere, Y. Slimani, A. D. Korkmaz, H. Gungunes, M. Nawaz, Sagar E. Shirsath, A. Baykal, I. Ercan; Journal of Sol-Gel Science and Technology (2019) 92: 239–251.
Nidhi Sheoran, Vinod Kumar, Ashok Kumar; Journal of Magnetism and Magnetic Materials 475 (2019) 30–37.
Sunita Dagar, Ashima Hooda, Satish Khasa, Meena Malik; Journal of Alloys and Compounds 806 (2019) 737-752.