Interphase Power Law IPL model is based on a simple extension of a general power law model in which composite system containing filler interphase and matrix regions may be treated as a unique three-component composite system comprising two primary components (matrix and filler) and an interphase region that is inextricably dependent upon the characteristics of the filler and matrix components. In this paper, it can be investigated that all possible causes and effects of the interphase region on a variety of complex composite systems and so, the effects of the composite filler types and filler surfaces areas as well as the dielectric characteristics of the interphase region have been investigated. Effects of the composite filler types and filler surface areas as well as the dielectric characteristics of the interphase region have been explored on new industrial materials. Finally, this research explains the dielectric characteristics of new nanocomposite polymeric materials by IPL.
Thabet, A., & Mobarak, Y. A. (2012). A MODEL FOR DIELECTRIC CHARACTERIZATION OF NANOCOMPOSITE POLYMERIC INDUSTRIAL MATERIALS. JES. Journal of Engineering Sciences, 40(No 5), 1375-1388. doi: 10.21608/jesaun.2012.114515
MLA
A. Thabet; Y. A. Mobarak. "A MODEL FOR DIELECTRIC CHARACTERIZATION OF NANOCOMPOSITE POLYMERIC INDUSTRIAL MATERIALS", JES. Journal of Engineering Sciences, 40, No 5, 2012, 1375-1388. doi: 10.21608/jesaun.2012.114515
HARVARD
Thabet, A., Mobarak, Y. A. (2012). 'A MODEL FOR DIELECTRIC CHARACTERIZATION OF NANOCOMPOSITE POLYMERIC INDUSTRIAL MATERIALS', JES. Journal of Engineering Sciences, 40(No 5), pp. 1375-1388. doi: 10.21608/jesaun.2012.114515
VANCOUVER
Thabet, A., Mobarak, Y. A. A MODEL FOR DIELECTRIC CHARACTERIZATION OF NANOCOMPOSITE POLYMERIC INDUSTRIAL MATERIALS. JES. Journal of Engineering Sciences, 2012; 40(No 5): 1375-1388. doi: 10.21608/jesaun.2012.114515
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