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References [1] Anadão, P.: Nanocomposites - New Trends and Developments, Intech, 2012, ISBN 978-953-51-0762-0 [2] Okada, A., et al.: Composite material and process for manufacturing same. Kabushiki Kaisha Toyota Chou Kenkyusho., 1988, US Patent 4739007. [3] Kawasumi, M., et al.: Process for producing composite material. .Kabushiki Kaisha Toyota Chuo Kenkyusho, 1989, US Patent 4810734 [4] Pavlidou, S., & Papaspyrides, C. D.: A review on polymer-layered silicate nanocomposite.Progress in Polymer

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Magnetic resonance study of co-modified (Co,N)-TiO2 nanocomposites

., Typek, J., Guskos, A., Berczynski, P., Dolat, D., Grzmil, B., & Morawski, A. (2013). Magnetic resonance study of annealed and rinsed N-doped TiO 2 nanoparticles. Cent. Eur. J. Chem ., 11 , 1996–2004. 30. Guskos, N., Zolnierkiewicz, G., Guskos, A., Typek, J., Berczynski, P., Dolat, D., Mozia, S., & Morawski, A. W. (2015). Magnetic resonance study of nickel and nitrogen co-modified titanium dioxide nanocomposites. In NATO Science for Peace and Security Series – C: Environmental Security, “Nanotechnology in the security systems”, 29 September – 3 October 2013

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Electrical Treeing Propagation in Nanocomposites and the Role of Nanofillers: Simulationwith the Aid of Cellular Automata

References IMAI, T.—SAWA, F.—YOSHIMITSU, T.—OZAKI, T.—SHIMIZU, T.: Preparation and Insulation Properties of Epoxy-Layered Silicate Nanocomposite, In: 2004 Annual Report Conference on Electrical Insulation and Dielectric Phenomena (CEIDP), Colorado, USA, 17-20 October, 2004, pp. 402-405. KOZAKO, M.—YAMANO, S.—KIDO, R.—OHKI, Y.—KOHTOH, M.: Evaluation of Epoxy/Alumina Nanocomposites, Proceedings of 2005 International Symposium on Electrical Insulating Materials, Kitakyushu, Japan, June 5-9, 2005, pp. 231

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Behaviour of Epoxy Silica Nanocomposites Under Static and Creep Loading

References 1. Zandiatashbar, A., Picu, R.C., Koratkar, N., Control of epoxy creep using graphene, Small, Vol. 8, pp. 1675-1681, doi: 10.1002/smll.201102686, (2012). 2. Zhang, W., Picu, R.C., Koratkar, N., Suppression of fatigue crack growth in carbon nanotube composites, Applied Physics Letters, Vol. 91, 193109, (2007). 3. Picu, C.R., Constantinescu, D.M., Sandu, M., Apostol, D.A., Cosmoiu, I., Toughness enhancement in nanocomposite thermosets with application to carbon-epoxy system, Proceedings of the 13th

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Effects of Glycerol and Diameter of Holes in Breaker Plate on Performance of Screw Mixer for Nanocomposites

References Anuku, A. (2012). Chemical and biochemical synthesis of magnetite nanoparticles in detection and treatment of breast cancer . A paper presented at 5 day workshop in the Federal University of Technology, Minna, Nigeria in collaboration with African University of Science and Technology, Abuja, Nigeria. pp. 1-12. . Azeredo, H. M. C. (2009). Nanocomposites for food packaging applications. Food Research International, 42 (9), 1240-1253. Connelly, R. K., Kokini, J.L. (2007). Examination of the mixing

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Application of artificial neural nerworks in oxidation kinetic analysis of nanocomposites

equations. WNT, Warszawa. (In Polish). Hien, T.D. (2003). Numerical analysis of stochastic systems. Prac. Nauk. Pol. Szcz. 579, 21-28. (In Polish) Strzelczak, A. (2008). Analysis of oxidation processes of selected ceramic nanocomposites in dry air. Unpublished doctoral dissertation, Szczecin University of Technology, Poland. (In Polish). Bykowszczenko, N. (2007). Identification of air contamination models in industrial regions. Unpublished doctoral dissertation, Szczecin University of

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Preliminary Experimental Work on Nanocomposite Polymers: Small Partial Discharges at Inception Voltage, The Existence of Possible Charging Mechanisms Below Inception Voltage and the Problem of Definitions

References NELSON, J. K.: Dielectric Polymer Nanocomposites, Springer, Heidelberg, 2010. DANIKAS, M. G.—TANAKA, T.: Nanocomposites: A Review on Electrical Treeing and Breakdown, IEEE Electr. Insul. Mag. 25 No. 4 (2009), 19-25. LAU, K. Y.—PIAH, M. A. M.: Polymer Nanocomposites in High Voltage Electrical Insulation Perspective: A Review, Malaysian Polym. J. 6 No. 1 (2011), 58-69. KOZAKO, M.—KIDO, R.—FUSE, N.—OHKI, Y.—OKAMOTO, T.—TANAKA, T.: Difference in

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Effect of Matrix Viscosity on Rheological and Microwave Properties of Polymer Nanocomposites with Multiwall Carbon Nanotubes

., Valencia, American Scientific Publishers, 2007 [10] Vermant, J., S. Ceccia, M. K. Dolgovskij, P. L. Maffettone, C. W. Macosco. Quantifying Dispersion of Layered Nanocomposites via Melt Rheology. J. Rheol., 51 (2007), 429-450. [11] Krishnamoorti, R., A. S. Silva. In: Rheological Properties of Polymer-Layered Silicate Nanocomposites: Polymer-Clay Nanocomposites, (Eds. T. J. Pinnavaia and G. W. Beall), New York, John Wiley & Sons, 2000, 315-343. [12] Huangn, Y. Y., E. M. Terentjev. Dispersion of Carbon Nanotubes: Mixing

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Preparation of Ag nanoparticles-reinforced polyamide 6 nanocomposites by in situ polymerization and investigation of its properties

LITERATURE CITED 1. Liu, X., Qi, S. & Li, Y., et al. (2013). Synthesis and characterization of novel antibacterial silver nanocomposite nanofiltration and forward osmosis membranes based on layer-by-layer assembly. Water Res., 47(9), 3081–3092. DOI: 10.1016/j.watres.2013.03.018. 2. Kumar, S.V., Huang, N.M. & Lim, H.N., et al. (2013). Preparation of highly water dispersible functional graphene/silver nanocomposite for the detection of melamine. Sens. Actuators B 181, 885–893. DOI: 10.1016/j.snb.2013.02.045. 3. Babu, K.F., Dhandapani, P

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On Two Nanocomposite Models: Differences, Similarities and Interpretational Possibilities Regarding Tsagaropoulos' Model and Tanaka's Model

References LEWIS, T. J.: Nanometric dielectrics, IEEE Trans. Diel. Electr. Insul 1 (1994), 812-825. See for example the whole issue of IEEE Trans. Diel. Electr. Insul. 15 No. 1 (Feb 2008). TSAGAROPOULOS, G.—EISENBERG, A.: Dynamic Mechanical Study of the Factors Affecting the Two Glass Transition Behavior of Filled Polymers. Similarities and Differences with Random Ionomers, Macromolecules 28 (1995), 6067-6077. TANAKA, T.: 'Dielectric Nanocomposites

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