Paper Titles

The Study of Microstructures and Tensile Properties of an In Situ A356-ZrB₂ Metal Matrix Composite
p.29

Selection of ILs for Separation of Benzene from n-Hexane Using COSMO-RS. A Quantum Chemical Approach
p.35

A Comparison of Tensile Strength and Impact Energy of Austempered versus Step Quenched 4340 Ultra High Strength Steel
p.41

Influence of Oil Lubrication and Heat Treatment on Wear Resistance of Thermally Sprayed Molybdenum Coating
p.47

New Developed Formula to Calculate the Permittivity of Ferrite-Polymer Composite
p.53

Adjusting the Influence Function Method for Subsidence Prediction
p.59

Effect of the Shear Force on the Failure of Spatial Concrete Framework Structures
p.67

Improvement of the Adhesive Wear Resistance and Mechanical Properties of Low-Carbon Steel by Solid Carbonization
p.81

Effects of the SIMA Process on the Microstructure of 6061 Al Alloy Refined by Al-5Ti-1B
p.87

HomeKey Engineering MaterialsKey Engineering Materials Vol. 553New Developed Formula to Calculate the...

New Developed Formula to Calculate the Permittivity of Ferrite-Polymer Composite

Article Preview

Abstract:

A new developed formula named the Habashi-Zul formula, based on the Maxwell-Garnett (MG) formula was fabricated and used to calculate the complex permittivity of the Sm-YIG in PVDF composite samples in the frequency range of 10 MHz to 1 GHz. The calculated permittivities results were compared with the measured values of each sample of Sm-YIG in PVDF composite samples and, with calculated results from various theoretical models including the MG, Looyenga, Bruggeman and, Sen Scala and Cohen. The Habashi-Zule formula presented higher accuracy as compared to other models.

You might also be interested in these eBooks

Advanced Computational Engineering and Experimenting II

Info:

Periodical:

Key Engineering Materials (Volume 553)

Pages:

53-58

DOI:

https://doi.org/10.4028/www.scientific.net/KEM.553.53

Citation:

Cite this paper

Online since:

June 2013

Authors:

Ramadan Al-Habashi, Zulkifly Abbas

Keywords:

Ferrite-Polymer Composite, Maxwell Garnett, Permittivity, Sm-YIG-PVDF

Export:

RIS, BibTeX

Price:

Permissions CCC:

Request Permissions

Permissions PLS:

Request Permissions

Сopyright:

© 2013 Trans Tech Publications Ltd. All Rights Reserved

Share:

Citation:

[1] V.R. Caffarena, T. Ogasawara, M.S. Pinho and J.L. Capitaneo: J. Lat. Amer. Appl. Res. Vol. 36 (2006), p.137

[2] Z. Abbas, R. Al-Habashi, K. Khalid and M. Maarof: Euro. J. Sci. Res. Vol. 36 (2009), p.154

[3] N. Yahya, R. Al-Habashi, K. Koziol, R. Borkowski, M. Akhtar, M. Kashif and M. Hashim: J. Nanosci. Nanotech. Vol. 10 (2010), p.1

[4] J. C. Salamone: Polymeric Materials Encyclopedia. Published by CRC Press. Vol. 4 (1996), p.2536

[5] J. C. Salamone: Polymeric Materials Encyclopedia. Published by CRC Press. Vol. 9 (1996), p.7115

[6] P. Chen, R.X. Wu, T. Zhao, F. Yang, J. Q. Xiao: J. Phys. D: Appl. Phys. Vol. 38 (2005), p.2302

[7] N. Gupta, S. C. Kashyap and D. C. Dube: J. Magnets. Mag. Mater. Vol. 288 (2005), p.307

[8] S. Kimura, T. Kato, T. Hyodo, Y. Shimizu and M. Egashira: J. Magnets. Mag. Mater. Vol. 312, Issue 1 (2007), p.181

[9] Q. Yang, H. Zhang, Y. Liu, Q. Wen and L. Jia: J. Mater. Let. Vol. 62, Issues 17-18 (2008), p.2647

[10] S.M. Abbas, A.K. Dixit, R. Chatterjee and T.C. Goel: J. Magnets. Mag. Mater. Vol. 309, Issue 1 (2007), p.20

[11] R. Dosoudil, M. Ušáková, J. Franek, J. Sláma and V. Olah: J. Magnets. Mag. Mater. Vol. 304, Issue 2 (2006), p. e755

DOI: 10.1016/j.jmmm.2006.02.216

[12] Z. Abbas, R.D. Pollard and R.W. Kelsall: IEEE Trans. Instrum. Meas. Vol. 50 (2001), p.1334

[13] V.V. Linfeng Chen, C.K. Varadan and C.P.N. Ong: Microwave electronics: measurement and materials characterization. Published by Wiley (2004)

[14] A. Priou: Dielectric Properties of Heterogeneous Materials. Elsevier Science Publishing Co., Inc. (1992)

[15] Agilent: Agilent 4291B RF Impedance/Material Analyzer/Operation Manual. Agilent Technologies Japan. Third Edition (1999)

[16] W.J. Palm: Introduction to MATLAB 7 for Engineers. Edition: 2. Revised illustrated. Published by McGraw Hill Professional (2004)

[17] O. Büyüköztürk, T.Y. Yu and J.A. Ortega: J. Cement. Con. Compo. Vol. 28 (2006), p.349

[18] H. Okubo, H. Shumiya, M. Ito and K. Kato: Optimization techniques on permittivity distribution in permittivity graded solid insulators. Conf. Rec. IEEE. Inter. Sym. Elect. Ins. 11-14 June (2006), p.519

DOI: 10.1109/elinsl.2006.1665370

[19] M. Koledintseva, J. Drewniak, Y. Zhang, J. Lenn and M. Thoms: J. Magnets. Mag. Mater. Vol. 321 (2009), p.730