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References [1] CHENG, M.N.- CHEUNG, C.F.- LEE, W.B.- To, S.- KONG, L.B.: Theoretical and experimental analysis of nanosurface generation in ultra-precision raster milling. “International Journal of Machine Tools & Manufacture 48/2008”, s.1090-1102. [2] DOBRZAŃSKI, L.A.: Podstawy nauki o materiałach i metaloznawstwo. Materiały inżynierskie z podstawami projektowania materiałowego. WNT, Warszawa, 2002. [3] KARAKAS, M. S. Effect of cutting speed on tool performance in milling of B4Cp reinforced aluminium metal matrix composites. “Journal of Materials

REFERENCES ASM Handbook. Composites, 21, 2001. Bacon, R., Moses, C.T., 1986. High-Performance Polymers—Their Origin and Development . In: R.B. Seymour and G.S. Kirshenbaum (Ed.), Elseveir, p. 341. Bacon, R., Tang, M.M., 1964. Carbonization of Cellulose Fibers I . Carbon, 2, p. 211. D'Abate, G.D., Diefendorf, R.J. 1985. The Effect of Heat on the Structure and Properties of Mesophase PrecursorCarbon Fibers. Proc. of the 17th Biennial Conf. on Carbon, American Carbon Society, p. 390. Donnet, J.B., Bansal, R.C., 1990. Carbon Fibers . 2nd ed. , Marcel Dekker

REFERENCES Peters, S. T., 1998. Handbook of Composites . 2 nd ed., Chapman & Hall, London, 1998. ASM Handbook:Composities . vol. 21, USA, 2001. Meisner, B., Zilvar, V., 1987. Fyzika polymerů . Praha, 1987. Zweben, C., 1998. Composite Materials and Mechanical Design . Mechanical Engineer's Hansbook, 2 nd ed., New York, 1998. Van der Vegt, A. K., 1999. From polymers to plastic . DUP Blue Print, Netherlands, 1999. Rigibi, Z., Jilkén, L., 1983. The responce of an elastomer filled with soft ferite to mechanical and magnetic influences . Jour. Magn. Mat., vol

5. Biblography [1] JBaker A. A.: Composite Materials for Aircraft Structures, Second Edition (AIAA Education Series), 2004. [2] Kustron K.: The design technology development of prospective airframe in view of the operation&maintenance experience and technology development, Journal of KONBiN 2 (22) 2012. [3] Kensche Ch. W.: T he influence of materials on the development of sailplane design , Technical Soaring, Volume XXVTT – July 2003 [4] Jancelewicz B.: Podstawy konstrukcji lotniczych z kompozytów polimerowych , Wyd. ITWL Warszawa 2000. [5] Verein Deutscher

REFERENCES [1] Brosius, D., 2015, “Thermosets vs. thermoplastics: Is the battle over?,” Compos. World. [2] Society of Automotive Engineers, and National Institute for Aviation Research (U.S.), eds., 2012, Composite materials handbook Volume 3, SAE International on behalf of CMH-17, a division of Wichita State University, Warrendale, Pa. [3] Deng, S., Djukic, L., Paton, R., and Ye, L., 2015, “Thermoplastic–epoxy interactions and their potential applications in joining composite structures – A review,” Compos. Part Appl. Sci. Manuf., 68, pp. 121–132. [4] Campbell

References [1] Transparency Market Research: Injection Molded Plastics Market Global Industry Analysis, Size, Share, Growth and Forecast, 2010-2018. (accessed 1.03.2017) [2] Kar K. K. (ed.): Composite Materials: Processing, Applications, Characterizations. Springer Verlag, Berlin–Heidelberg, 2017. [3] Szakács H., Varga Cs., Nagy R.: Polimerek méréstechnikája . Pannon University, Veszprém, 2012. 71–76. [4] Varga Cs.: Műszaki műanyagok. part 2

References 1. Reis P.N.B., Ferreira J.A.M., Zhang Z.Y., Benameur T., Richardson M.O.W.: Impact strength of composites with nano-enhanced resin after fire exposure. Composites: Part B, 56 (2014), 290-295. 2. Saber-Samandaris S., Khatibi A.A., Basic D.: An experimental study on clay/epoxy nanocomposites produced in a centrifuge: Composites Part B, 38(1), (2007),102-7. 3. Hosur M.V., Chowdhury F., Jeelani S.: Low velocity impact response and ultrasonic NDE of woven carbon/epoxy - nanoclay nanocompositres. Journal of Composite Materials, 41 (2007), 2195-212. 4

] Zaczek, Z., Materiały konstrukcyjne do budowy okrętów przeciwminowych , Przegląd Morski, Nr 10, pp. 23-38, 1987. [11] Mouritz, A. P., Gellert, E., Burchill, P., Review of advanced composite structures for naval ships and submarines , Composite Structures, Vol. 53, pp. 21-41, 2001. [12] Kyzioł, L., Jastrzębska, M., Określenie wybranych właściwości mechanicznych odpadowych materiałów kompozytowych , Logistyka, 3, pp. 2758-2763, 2015. [13] Kyzioł, L., Analiza możliwości zastosowania materiałów kompozytowych na konstrukcje okrętów specjalnych , Autobusy, Technika

References 1. Ambroziak A., Kłosowski P.: Mechanical properties of polyvinyl chloride-coated fabric under cyclic tests. Journal Of Reinforced Plastics And Composites. Vol. 33, No. 3 (2014), pp. 225-234 2. Ambroziak A., Kłosowski P.: Mechanical testing of technical woven fabrics. Journal Of Reinforced Plastics And Composites. Vol. 32, No. 10 (2013), pp. 726-739. 3. Bobkowska K., Janowski A., Przyborski M., Szulwic J.: Analysis of High Resolution Clouds of Points as a Source of Biometric Data. 2016 Baltic Geodetic Congress (BGC Geomatics)/ : IEEE, 2016, pp.15-21 4

References Y. FENG, M. YING, C.WANG, in: P. Ramakrishnan (Ed.), Proceedings of Advances in composite materials, ASM International, India Chapter, Bombay, India, p. 631, 1990. P. K. ROHATGI, S. RAY, Y. LIU, Tribological properties of metal matrix graphite particle composites, Int. Mater. Rev. 37 (1992) 129-149. Š. EMMER, A. HAVALDA, J. BIELEK, Copper-graphite composite-material for application to sliding electrical contacts, J. Phys. IV 3 (1993) 1799 J. KOVÁČIK, J. BIELEK, Electrical conductivity of Cu/graphite composite material as a function of structural