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Agnieszka Szczygielska and Jacek Kijeński

Industrial Chemistry 2002, (6th ed.) (Thermoplastic Materials). Rothon, R.N. (2003), Particulate-filled polymer composites, Rapra Technology Ltd, (2nd ed.) Kurzeja, L., Gibas, E. & Kubica, S. (2008). Polypropylene with powder carbon filler-shungite. Composites 8 (4), 414-418 (in Polish). Jeziórska, R., (2008). Effect of poly(butylene terephthalate) functionalized with 2,2'-(1,3-phenylene)-bis(2-oxazoline) on the structure and properties of polyamide 6 blends with textile waste containing poly

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Olga Mysiukiewicz and Tomasz Sterzyński

References [1] Ashori A.,Wood-plastic composites as promising green-composites for automotive industries, Bioresource Technology 99 (2008) 4661-4667. [2] Osburg V.S., StrackM., ToporowskiW.,Consumer acceptance of wood-polymer composites: a conjoint analytical approach with a focus on innovative and environmentally concerned consumers, Journal of Cleaner Production 110 (2016) 180-190. [3] Saba N., TahirP., JawaidM.,A review on potentiality of nano filler/natural fiber filled polymer hybrid composites, Polymer 6

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Răzvan Petre, Nicoleta Petrea, Gabriel Epure and Teodora Zecheru

References [1] Y.G. Yang, C.M. Chen, Y.F. W, Q.H. Yang, M.Z. Wang, Oxidized graphene and graphene based polymer composites , New Carbon Mater, 23 (3), pp. 193–200, 2008. [2] D. R. Dreyer, S. Park, C. W. Bielawski, R. S. Ruoff, The chemistry of graphene oxide , Chem. Soc. Rev., 39, 228–240, 2010. [3] K.E. Prasad, B. Das, U. Maitra, U. Ramamurty, C.N.R. Rao, Extraordinary synergy in the mechanical properties of polymer matrix composites reinforced with 2 nanocarbons , Proc Nat Acad Sci, 106 (32), pp. 13186–13189, 2009. [4] C.M. Damian, A

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B. Jaworska, J. J. Sokołowska, P. Łukowski and J. Jaworski

, „Rola popiołow lotnych wapniowych i krzemionkowych w kształtowaniu właściwości wspołczesnych spoiw budowlanych i tworzyw cementowych.”, Wydawnictwo Politechniki Krakowskiej, Seria: Inżynieria Lądowa, Monografia nr 325, Krakow, 2006. 6. P. Łukowski, J. J. Sokołowska, G. Adamczewski, B. Jaworska, "Waste perlite powder as the potential microfiller of polymer composites.", Mechanics and Materials (Jemioło S. and Lutomirska M. eds.), Oficyna Wydawnicza Politechniki Warszawskiej, 193-200, 2013. 7. M. Ozkul, “Effect of aggregate on the

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Stefan Dačić, Aleksandar Mitić, Marija Nikolić, Milica Cenić, Nenad Stošić and Dragica Dačić-Simonović

References 1. Braga RR, Ballester RY, Ferracane JL. Factors invilved in the development of polymerization shrinkage stress in resin-composites: A systematic review. Dental materials 2005;21(10):962-70. http://dx.doi.org/10.1016/j.dental.2005.04.018 2. Silva MAB, Oliveira S, Tonholo J et al. Effect of the Insertion and Polymerization Technique in Composite Resin Restoratios: Analysis of Marginal Gap by Atomic Force Microscopy MicroscMicroanal. 2010;16 (6):779-84. http://dx.doi.org/10.1017/S1431927610093931 3. Lindberg A, Pentzfeldt A, van

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A. Sobczak-Kupiec, B. Tyliszczak, K. Krupa-Żuczek, D. Malina, M. Piątkowski and Z. Wzorek

. 88(5) , 568-570 (2009). [8] V.P. Orlovskii, V.S. Komlev, S.M. Barinov, Hydroxyapatite and Hydroxyapatite-Based Ceramics. Inorg. Mater. 38 , 973-984, (2002). [9] J.F. Mano, R.A. Sousa, L.F. Boesel, N.M. Neves, R.L. Reis, Bioinert, biodegradable and injectable polymeric matrix composites for hard tissue replacement: state of the art and recent developments. Compos. Sci. Technol. 64 , 789-817 (2004). [10] A. Di Martino, M. Sittinger, M.V. Ris-bud, Chitosan: A versatile biopolymer for orthopaedic tissue-engineering. Biomaterials 26 , 5983-5990 (2005). [11] A

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D. Czekaj, J. Micior and A. Lisińska-Czekaj

, Ceramika 101, 125-131 (2008). [4] A. Lisinska - Czekaj, D. Czekaj, Fabrication and study of BiNbO 4 ceramics, Key Engineering Materials 512-515, 1212-1217 (2012). [5] M. Płonska, D. Czekaj, Studies of temperature and fabrication methods influence on structure and microstructure of BiNbO 4 microwave electroceramics, Archives of Metallurgy and Materials 56, 4, 1169-1175 (2011). [6] K. Osinska, M. Adamczyk, M. Parcheniak, D. Czekaj, Fabrication and dielectric properties of 0-3 connectivity ceramic-polymer composites

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Sławomir Augustyn and Rafał Kowalski

5. References 1. Augustyn S.: Horyzonty nowych technologii a projektowanie konstrukcji lotniczych, Speedserwis, Inowrocław 2016. 2. Augustyn S.: Wykorzystanie innowacyjnych technologii SMART w strukturach płatowca i bezzałogowego statku powietrznego, Bezpieczeństwo lotnicze w aspekcie rozwoju technologicznego. Wydawnictwo Akademii Sztuki Wojennej, Warszawa 2017. 3. Brown E.N., White S.R., Sottos N.R.: Retardation and repair of fatigue cracks in a microcapsule toughened epoxy composite, part II: in situ self-healing, Compos Sci Technol, 2005, 65

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Ieva Delvere, Marija Iltina, Maxat Shanbayev, Aray Abildayeva, Svetlana Kuzhamberdieva and Dagnija Blumberga

process mapping. Journal of Cleaner Production 2015:91:251–261. doi:10.1016/j.jclepro.2014.12.033 [5] Marshall A. Composite Basics. Aircraft Technical Book Co, 2007. [6] Lefeuvre A., Garnier S., Jacquemin L., Pillain B., Sonnemann G. Anticipating in-use stocks of carbon fiber reinforced polymers and related waste flows generated by the commercial aeronautical sector until 2050. Resources, Conservation and Recycling 2017:125:264–272. doi:10.1016/j.resconrec.2017.06.023 [7] Shuaib N. A., Mativenga P. T., Kazie J., Job S. Resource efficiency and

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Ireneusz Dominik, Filip Kaszuba and Janusz Kwaśniewski

References 1. Aureli M., Prince C., Porfiri M., Peterson S. D. (2010), Energy harvesting from base excitation of ionic polymer metal composites in fluid environments, Smart Materials and Structures, 19(1), 15003. 2. Bahramzadeh Y., Shahinpoor M. (2011), Dynamic curvature sensing employing ionic-polymer-metal composite sensors, Smart Materials and Structures, 20(9), 94011. 3. Chen Z., Tan, X. (2008), A Control-Oriented and Physics-Based Model for Ionic Polymer--Metal Composite Actuators, Mechatronics, IEEE