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M. Romanowicz

References ANSYS users’s manual (Version 14). Cannonsburg PA: ANSYS, 2012. Barbero E.J. (1998): Prediction of compression strength of unidirectional polymer matrix composites. - J. Compos. Mater., vol.32, pp.483-502. Budiansky B. and Fleck N.A. (1993): Compressive failure of fibre composites. - J. Mech. Phys. Solids, vol.41, pp.183-211. Drucker D.C. and Prager W. (1952): Soil mechanics and plastic analysis for limit design. - Q. App. Math., vol.10, pp.157-165. Fleck N.A. (1997

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Agnieszka Ślosarczyk and Piotr Krawczyk

electrooxidation. Electrochim. Acta 79, 202–209. DOI: 10.1016/j.electacta.2012.06.106. 9. Ohama, Y. (1997). Recent progress in concrete-polymer composites, Adv. Cem. Bas. Mat. 5, 31–40. 10. Ohama, Y. (1998). Polymer-based admixtures, Cem. Concr. Res. 20, 189–212. 11. Ślosarczyk, A. (2013). Cement composites modified with selected carbon materials, LAP LAMBERT Academic Publishing, Saarbrücken, Germany. 12. Ślosarczyk, A. & Skowroński, J.M. (2009). Carbon spheres as possible micro-reinforcement of cement-based composites. Brittle Matrix Composites

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A. Mamala, P. Kwaśniewski, A. Nowak, J. Grzebinoga, W. Ściężor and R. Kowal

REFERENCES [1] Y. Takezawa, M. Akatsuka, C. Farren, High thermal conductive epoxy resins with controlled high order structure, Proceedings of the 7th International Conference on Properties and Applications of Dielectric Materials, Nagoya, Japan, June 1-5, 1146-1149 (2003). [2] F.F.T. Araujo, H.M. Rosenberg, The thermal conductivity of epoxy-resin/metal-powder composite materials from 1.7 to 300K, Journal of Physics D: Applied Physics 9 , 665-676 (1974). [3] I.A. Tsekmes, R. Kochetov, P.H.F. Morshuis, J.J. Smit, Thermal Conductivity of Polymeric

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Sławomir Augustyn and Rafał Kowalski

.R., Sriram S.R., et al.: Autonomic healing of polymercomposites, Nature, 2001, 409, s. 794–797. 15. Wu D.Y., Meure S., Solomon D.: Self-healing polymeric materials: A review of recent developments, Progress in Polymer Science, 2008, 33, 5, s. 479 – 522.

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Ashu Mittal, Udai Sara and Asgar Ali

and M. Aqil, The effect of penetration enhancers on permeation kinetics of nitrendipine in two different skin models, Biol. Pharm. Bull. 31 (2008) 1766-1772; DOI: 10.1248/bpb.31.1766. M. Aqil, A. Ali, Y. Sultana and P. Nayyar, Matrix type transdermal drug delivery systems of metoprolol tartrate: skin toxicity and in vivo characterization, Ethiop. Pharm. J. 22 (2004) 53-60. P. Arora and M. Biswajit, Design, development, physicochemical, and in vitro and in vivo evaluation of transdermal patches containg

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Krzysztof Piernik, Irena Chatys and Rafał Chatys

. Fatigue of fibrous composite materials, ASTM STP 723, American Society for Testing and Materials, 1981, pp. 133-151. [4] L. G. Zhao, N.A. Warrior, and A.C. Long. “A thermo-viscoelastic analysis of process- induced residual stress in fiber-reinforced polymer-matrix composites,” Materials Science and Engineering, vol. 452-453, pp. 483-498, 2007. [5] D. G. Yang, K. M. B. Jansen, L. J. Ernst, G. Q. Zhang, W. D. Van Drel, H. J. L. Bressers, and J

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Shailesh Prajapati, Laxmanbhai Patel and Dasharath Patel

.1016/0378-5173(89)90003-3. A. Streubel, J. Siepmann and R. Bodmeier, Floating matrix tablets based on low density foam powder: effects of formulation and processing parameters on drug release, Eur. J. Pharm. Sci. 18 (2003) 37-45; DOI: 10.1016/S0928-0987(02)00223-3. Martindale - The Extra Pharmacopoeia , 31 st ed., Pharmaceutical Press, London 1996, pp. 1217-1218. M. Albright Lisa, Use of domperidone as a prokinetic and antiemetic, health and wellness, Int. J. Pharm. Comp. 9 (2005) 120-125. B. Mehta, P. Doshi

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Janusz Typek, Kamil Wardal, Grzegorz Zolnierkiewicz, Anna Szymczyk, Nikos Guskos, Urszula Narkiewicz and Elzbieta Piesowicz

small concentration (0.1 wt.%) in non-magnetic matrix of PEN-b-PTMO polymer. For this aim DC magnetometry and ferromagnetic resonance (FMR) spectroscopy at microwave frequency have been employed. Moreover, the influence of the 0.7(Fe 2 O 3 )/0.3(ZnO) nanocomposite on thermal properties of PEN-b-PTMO polymer have been studied by thermogravimetric analysis (TGA). 2 Experimental The 0.7(Fe 2 O 3 )/0.3(ZnO) nanopowder was synthesized by traditional wet chemistry method followed by calcination. A mixture of iron and zinc hydroxides was obtained by adding ammonia

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Tomasz Letmanski, Anna Kodym, Piotr Weber, Michal Lewandowski, Andrzej Wisniewski and Tomasz Baj

polymeric matrix tablets containing metronidazole. J. Pharm. Biomed. Anal., 54(4): 730-4, 2011. 21. The Merck Index. Fourteenth Edition, Whitehouse Station, NJ: Merck & Co., electronic version, 2006. 22. United States Pharmacopoeia/National Formulary, 32/27, Rockville, MD: Pharmacopeial Convention; 2009 23. Viridén A. et al.: Model drug release from matrix tablets composed of HPMC with different substituent heterogeneity. Int. J. Pharm., 401, 60, 2010. 24. Viridén A., Wittgren B., Larsson A.: Investigation of

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S.G. Park, A. Abdal-Hay and J.K. Lim

REFERENCES [1] A. Talal, N. Waheed, M. Al-Masri, I.J. McKay, K.E. Tanner, F.J. Hughes, Journal of Dentistry 37 , 820 (2009). [2] D.A. Soscia, N.A. Raof, Y. Xie, N.C. Cady, A.P. Gadre, Advanced Engineering Materials 12 , B83 (2010). [3] S. Solarski, M. Ferreira, E. Devaux, Polymer 46 , 11187 (2005). [4] W. Heidemann, S. Jeschkeit, K. Ruffieux, J.H. Fischer, M. Wagner, G. Kruger, E. Wintermantel, K.L. Gerlach, Biomaterials 22 , 2371 (2001). [5] X. Yuan, A.F. Mak, J. Li, J Biomed Mater Res 57 , 140 (2001). [6] C. Durucan, P