A Study of Electric Properties of Fiber Fabric Based Filled Epoxy Composites
Keywords:
Laminate Composite, Ferrite, CNT, Electric Properties, External Electric and Magnetic Fields
Abstract
Electric and magnetic properties of laminate carbon fiber fabric based epoxy composites are investigated through experimental techniques. Various concentrations of powder fillers were used in order to change the basic properties of standard composite. Also effects of an electric or a magnetic external field over the mentioned properties are investigated. Electric conductivity is evaluated across and along reinforcement and at the surface of the samples.
References
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[2]. Kalamarkov, A. L., Kolopakov, A. G., Analysis, Design and Optimization of Composite Structures, John Wiley&Sons, 1997.
[3]. Winey, I. Karen, Vaia, A. R. (ed), Polymer Nanocomposites, MRS Bulletin, Vol. 32, April 2007.
[4]. Jong-Kyo Kim, Yin-Wing Mai, Engineered Interfaces in Fiber Reinforced Composites, Elsevier, 1998.
[5]. Roberts, A. P., Knackstedt, M. A., Structure-property correlations in model composite materials, Physical Review E, 54, 1996.
[6]. Torquato, S., Modeling of physical properties of composite materials, International Journal of Solids and Structures, 37, 2000.
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[8]. Liu, L., Matitsine, S. M., Gan, B. Y., Rozanov, K. N., Effective permittivity of planar composites with randomly or periodically distributed conducting fibers, Journal of Applied Physics, 98, 2005.
[9]. Makhnovskiy, D. P., Panina, L. V., Field dependent permittivity of composite materials containing ferromagnetic wires, Journal of Applied Physics, 93, 2003.
[10]. Kim, B., Lee, J., Yu, I., Electrical properties of single-wall carbon nanotube and epoxy composites, Journal of Applied Physics, 94, 2003.
[11]. Webster, J. G. (ed), Measurements, Instrumentations, and Sensors, CRC Press, 1999; Heaney, M. B., Electrical conductivity and resistivity, 43 and Misra, D. K., Permittivity measurement, 46.
[2]. Kalamarkov, A. L., Kolopakov, A. G., Analysis, Design and Optimization of Composite Structures, John Wiley&Sons, 1997.
[3]. Winey, I. Karen, Vaia, A. R. (ed), Polymer Nanocomposites, MRS Bulletin, Vol. 32, April 2007.
[4]. Jong-Kyo Kim, Yin-Wing Mai, Engineered Interfaces in Fiber Reinforced Composites, Elsevier, 1998.
[5]. Roberts, A. P., Knackstedt, M. A., Structure-property correlations in model composite materials, Physical Review E, 54, 1996.
[6]. Torquato, S., Modeling of physical properties of composite materials, International Journal of Solids and Structures, 37, 2000.
[7]. Donglu Shi, Peng He, Jie Lian, Chaud, X., Bud’ko, S. L., Beaugnon, E., Wang, L. M., Ewing, R. C., Tournier, R., Magnetic alignment of carbon nanofibers in polymer composites and anisotropy of mechanical properties, Journal of Applied Physics, 97, 2005.
[8]. Liu, L., Matitsine, S. M., Gan, B. Y., Rozanov, K. N., Effective permittivity of planar composites with randomly or periodically distributed conducting fibers, Journal of Applied Physics, 98, 2005.
[9]. Makhnovskiy, D. P., Panina, L. V., Field dependent permittivity of composite materials containing ferromagnetic wires, Journal of Applied Physics, 93, 2003.
[10]. Kim, B., Lee, J., Yu, I., Electrical properties of single-wall carbon nanotube and epoxy composites, Journal of Applied Physics, 94, 2003.
[11]. Webster, J. G. (ed), Measurements, Instrumentations, and Sensors, CRC Press, 1999; Heaney, M. B., Electrical conductivity and resistivity, 43 and Misra, D. K., Permittivity measurement, 46.
Published
2007-05-15
How to Cite
1.
ANDREI G, CÎRCIUMARU A, BÎRSAN I-G, DIMA D. A Study of Electric Properties of Fiber Fabric Based Filled Epoxy Composites. The Annals of “Dunarea de Jos” University of Galati. Fascicle IX, Metallurgy and Materials Science [Internet]. 15May2007 [cited 25Apr.2024];30(1):97-02. Available from: https://www.gup.ugal.ro/ugaljournals/index.php/mms/article/view/3185
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