Fabrication And Studies Of structural, Dielectrical Properties Of (Ni0.95-xCoxCu0.05Fe2O4) Composites by Powder Technology Method
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Abstract
In this paper, the preparation of compounds, Ni0.95CoxCu0.05Fe2O4) by using powder technology method where (X = 0, 0.01, 0.02, 0.03, 0.04,and 0.05) annealing at 1100 C temperature for four hours. A series of samples were carried out for the study of structural properties by measuring x-ray diffraction (XRD). It included the study of the lattice constant (a), the particle size (D), the porosity (P) and the virtual density by x-ray diffraction, (x-ray density) as well as the study of Dielectric properties using the LCR , the study of the loss of dielectric meter tand and the electric conductivity (Ϭac). The results of X-ray diffraction showed that all samples had a crystalline,) and also showed that the Lattice constant (a) increases as the content of cobalt increases the density of the particles calculated by X-ray diffraction increases with the cobalt content, while the porosity and particles size decreases as the cobalt content increases, and the electrical show that the real and imaginary dielectric and electrical conductivity using current decreases as frequency increases, the real electrical dielectric constant increases as the cobalt content increases, while the imaginary part of dielectric constant and electrical conductivity decreases as the cobalt content increases.
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References
1. H.K. Bowen, D.R. Human & W. Gingery
"Introduction to ceramics " , 2nd Edition, John
Wiley and Sons , New York (1976).
2. MMPA, Soft Ferrite ,s user ,s guide; "South
Michigan Avenue", (1998).
3. A. J. Fuller, "Ferrites at Microwave Frequencies",
Peter Peregrines Ltd. London;(1987).
4. H. Keer, Principles of the Solid State, "Wiley
Eastern Limited New Delhi", India, (1993).
5. Ahmed Maqsood , Mohammed Jamal , " Mater.
Science and Engineering ", 139, PP. (164)-(170) ;
(2007). 6. Mohammed Abdul khaddar , J. Jacob , "A.
Ponapean and K.T Mathew Microwave Dielectric
Properties of Nanostructured Nickel Ferrite", Bull.
Materials Sci., Volume 31, Number 6 , PP.(847)-
(851),(2008).
8. B. K. Chougule and P. U. Mahamuni , "Structural
Magnetic an Dielectric Properties of Nano crystalline
Ni-Zn Ferrites", Scholar Research Library, Volume 1
, Number 1 , P. (112 118), (2010).
9. A. Lagashetty, A. Mbhavikatti, & S. Kulkarni;
"Electromagnetic Studies of Nickle Ferrite
Synthesized by Microwave route", International
Journal of Technology and Engineering Science,
Volume 3, Number 1, PP. (687)- (693), (2011).
11. Md. Abdul Hossain, S. Ahter, D.K. Saha, B.M.
Sonia, M.K. Das, M.M. Rahman, "Structural and
Magnetization Behaviors of Ni Substituted Li-Mg
Ferrites", International Journal of Physics, Volume 1,
Number 5 , page (128-132) , (2013).
12. Li. Yang, "Synthesis and Optical Properties of
(ZnO)Nanostructures", Liutryck, Sweden, Linkoping,
(2008).
17. Radhiyah Mahdi," Characteristics and Fabrication
Study of Zno, Si Heterojunction by DC Magnetron
Sputtering", Ph.D. Thesis, University of Baghdad,
(2013) .
21. C.S. Ferekides, D.L. Morel, R.Mamazza, " Thin
Solid Films", Volume 484 , P. (26-33) , (2005).
22. P. Hernandez – Gomezb , M.J. Iqbal, J.M. Munoz
and M.N. Ashiq," Physical , Synthesis, Electrical and
Magnetic Properties of Al – Ga Substituted Co –
Precipitated Nano crystalline Strontium Hexa ferrite
," Journal of Magnetic Mater. And Magnetism ,
Volume 320 , Number 6 , PP. (881-886) , (2007) .
23. Annual Book of (ASTM) Standards , Part 13 , PP.
(180) – (182) , (1979).
24. M. Ho, Y.S. Hong, H.Y. Liu; Hsu, "C. T. J.
Magnetic Magn. Materials" , 279,401,(2004).
25. M. Maqsood, Ahmad Z. Amin, G. I. Abbasi, F.
Anis, A., J. Magn. Magn. Materials 311, PP.(494-
499) , (2007).
26. B. Tareev, "Physics of Dielectric Mater.", Mir
Publications Moscow, (1975).
27. K. J. Maqsood, A. Khan, "Alloys Compd. 509",
PP. (3393-3397), (2011).
28. S. Lath ," Preparation of (Co1-xZnxFe2O4) Nano
Ferrite and Study of its Structural and Electrical
Properties", M.SC. Thesis, University of Diyala,
(2012).
29. K. Chandra, S. K. Barthwal, Singhal, J. Singh, "
Preparation and Characterization of Nanosize Nickel
– Substituted Cobalt Ferrite (Co1-xNixFe2O4)," Journal
of Solid State Chemistry, Volume 178, Number 10,
PP.(3183-3189), (2005).
30. A. C. Razzitte, W. G. Fano and S. E. Jacobo, "
Physica B. 320, PP.(261-263), (2002).
31. J. J. Sun, J. B. Li, G. L. Sun, X. Zhan, J.
Magnetism Magnetic Materials 281, PP. (173-177),
(2004).
32. A. Maqsood, I. H. Gul," Journal of Magnetism
Magnetic Mater. 316", PP.(13-18), (2007).