[1. Janson, L.E. (December, 1993). Method for tightness testing of plastics pressure pipelines. Constr. Build. Mater. 7(4), 241-244. DOI: 10.1016/0950-0618(93)90008-Z.10.1016/0950-0618(93)90008-Z]Search in Google Scholar
[2. Hearn, G.L. (March 2002). Electrostatic ignition hazards arising from fuel fl ow in plastic pipelines. J. Loss Prevent. Proc. 15(2), 105-109. DOI:10.1016/S0950-4230(01)00061-4.10.1016/S0950-4230(01)00061-4]Search in Google Scholar
[3. Marsh, G. (March 2006). Composites keep pipelines fl owing. Reinf. Plast. 50(3), 34-36. DOI: 10.1016/S0034-3617(06)70940-7.10.1016/S0034-3617(06)70940-7]Search in Google Scholar
[4. Jones, R.M. (1998). Mechanics of composite materials (2nd ed.). Philadelphia, USA: Taylor & Francis Press.]Search in Google Scholar
[5. Królikowski, W., Kłosowska-Wołkowicz, Z. & Penczek P. (1986). Resin and polyester and laminates (2nd ed.). Warsaw, Poland: WNT Press. (In Polish).]Search in Google Scholar
[6. German, J. (1996). The basis of mechanics of fi bers composites: a scripts for the students of higher technical schools. Cracow, Poland: Cracow University of Technology Publishing. (In Polish).]Search in Google Scholar
[7. Hull, D., Clyne, T.W. (1996). An introduction to composite materials. Melbourne, Australia: Cambridge University Press.10.1017/CBO9781139170130]Search in Google Scholar
[8. Błażejewski, W. (2007). The application of acoustic emission in comparative research of braid carriers of composite bottles. In Wróbel G. Polymers and composites construction. Cieszyn, Poland: Logos Press Publishing (In Polish).]Search in Google Scholar
[9. Czulak, A. (2010). Shaping of the structure and properties of the fi ber glass-woven composite pipe element, Unpublished doctoral dissertation. Technishe University of Dresden, Germany.]Search in Google Scholar
[10. Błażejewski, W. (2009). Methodology of selection of the structure of composite braid carriers with reference to containers made by the winding method. Tech. Transactions - Mechanics z. 1-M, 9-14. (In Polish).]Search in Google Scholar
[11. Cohen, D. (1997, July). Infl uence of fi lament winding parameters on composite vessel quality and strength, Comp.: Part A, 28A, 1035-1047. DOI: 10.1016/S1359-835X(97)00073-0.10.1016/S1359-835X(97)00073-0]Search in Google Scholar
[12. Deputat, J. (1997). Non-destructive methods of research on materials properties. Warsaw, Poland: Biuro Gamma Press (In Polish).]Search in Google Scholar
[13. Śliwiński, A. (2001). Physics for industry. Ultrasounds and their applications (2nd ed). Warsaw, Poland: WNT Press (In Polish).]Search in Google Scholar
[14. Kozień, M.S. (2005). Hybrid Method of Evaluation of Sounds Radiated by Vibrating Surface Elements, J. Theor. Appl. Mech. 43,1, 119-133 (In Polish).]Search in Google Scholar
[15. Lewińska-Romicka, A. (2001). Non-destructive research. The basis of defectoscopy. Warsaw, Poland: WNT Press (In Polish).]Search in Google Scholar
[16. Ostachowicz, W., Wandowski, T., Malinowski, P. (2008). Elastic Wave Phased Array for Damage Localisation, J. Theor. Appl. Mech. 46, 917-931. (In Polish).]Search in Google Scholar
[17. Wróbel, G. (2008). Non-destructive methods of engineer research on polymer materials. Gliwice, Poland: Silesian University of Technology Publishing, (In Polish).]Search in Google Scholar
[18. Rojek, M., Szymiczek, M., Wróbel, G. (2011). Non-destructive methods of research on polymer materials, Plast. Proces. 6(144), 507-510 (In Polish).]Search in Google Scholar
[19. Rojek, M. (2011): Methodology of diagnostics research of layered composite materials with polymer warp. Gliwice, Poland: International OCSCO World Press (In Polish).]Search in Google Scholar
[20. Martin, R. (2008). Ageing of composites, Cambridge, England: Woodhead Publishing Limited.]Search in Google Scholar
[21. Bogdan-Włodek, A., Kozioł, M. & Myalski, J. (April, 2012). Influence of surface treatment on the wetting process of jute fi bres with thermosetting polyester resin. Pol. J. Chem. Tech. 14,1, 21-27. DOI: 10.2478/v10026-012-0054-9.10.2478/v10026-012-0054-9]Search in Google Scholar
[22. Landowski, M., Budzik, M. & Imielińska, K. (March, 2011). On degradation of glass/polyester laminate immersed in water. Advan. Mater. Sci. 11, 1, 35-39. DOI: 10.2478/v10077-011-004-x.]Search in Google Scholar
[23. Harris, B. (2003). Fatigue in composites, Cambridge, England: Woodhead Publishing Limited.]Search in Google Scholar
[24. Szymiczek, M., Rojek, M. & Wróbel, G. (2011).Test of composite pipe in the aspect of diagnostic of aging - fatigue changes. Proceedings of International Seminar on Science and Education, 16-23 April 2011(pp. 61-63). Rome, Italy.]Search in Google Scholar
[25. Stabik, J., Szymiczek, M., Wróbel, G. & Rojek, M. (2012). New stand for composite pipes testing. Proceedings of X International Conference of the Quality, Reliability and Long Usage of Technical Systems and Technological Processes, 20-27 November 2012 (pp. 63-66), Eilat, Israel.]Search in Google Scholar
[26. Szymiczek, M., Wróbel, G., M. Rojek, M. & Czapla T. (2013). Simulation diagnostics of the polyester-glass pipes degradation process; experimental basis, J. Achievements Mater. Manufact. Engineer., 59/1, 37-47.]Search in Google Scholar
[27. Standards Association of Poland (2002). Poland standard: Plastics piping - Glass-reinforced thermosetting plastics (GRP) pipes - Determination of the apparent initial circumferential tensile strength. PN-EN 1394-2002.]Search in Google Scholar
[28. Standards Association of Poland (1993). Poland standard: Plastics - Determination of fl exural properties. PN-EN ISO 178-1993.]Search in Google Scholar