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Warianty tytułu
Języki publikacji
Abstrakty
The purpose of the present work was the elaboration of research methodology of the exhaustion degree of performance properties of pipes based on unsaturated polyester and glass fibers, which were manufactured by the cross winding method on a poly(vinyl chloride) core. Within the frame of the work we conducted fatigue-ageing tests being the simulation tool of the degradation process of polyester-glass pipes. Diagnosis of the composite material condition was conducted with the use of nondestructive ultrasonic testing with the application of the echo method, in which the transition time of ultrasonic wave was determined as the identifying parameter. The registered transition time of ultrasonic wave allowed the identification of the material condition during the course of pipes exploitation.
Czasopismo
Rocznik
Tom
Strony
77--83
Opis fizyczny
Bibliogr. 28 poz., rys.
Twórcy
autor
- Silesian University Technology in Gliwice, Faculty of Materials Engineering and Biomaterials
autor
- Silesian University Technology in Gliwice, Faculty of Materials Engineering and Biomaterials
autor
- Silesian University Technology in Gliwice, Faculty of Materials Engineering and Biomaterials
Bibliografia
- 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.
- 2. Hearn, G.L. (March 2002). Electrostatic ignition hazards arising from fuel flow in plastic pipelines. J. Loss Prevent. Proc. 15(2), 105-109. DOI:10.1016/S0950-4230(01)00061-4.
- 3. Marsh, G. (March 2006). Composites keep pipelines flowing. Reinf. Plast. 50(3), 34-36. DOI: 10.1016/S0034-3617(06)70940-7.
- 4. Jones, R.M. (1998). Mechanics of composite materials (2nd ed.). Philadelphia, USA: Taylor & Francis Press.
- 5. Królikowski, W., Kłosowska-Wołkowicz, Z. & Penczek P. (1986). Resin and polyester and laminates (2nd ed.). Warsaw, Poland: WNT Press. (In Polish).
- 6. German, J. (1996). The basis of mechanics of fibers composites: a scripts for the students of higher technical schools. Cracow, Poland: Cracow University of Technology Publishing. (In Polish).
- 7. Hull, D., Clyne, T.W. (1996). An introduction to composite materials. Melbourne, Australia: Cambridge University Press.
- 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).
- 9. Czulak, A. (2010). Shaping of the structure and properties of the fiber glass-woven composite pipe element, Unpublished doctoral dissertation. Technishe University of Dresden, Germany.
- 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).
- 11. Cohen, D. (1997, July). Influence of filament winding parameters on composite vessel quality and strength, Comp.: Part A, 28A, 1035-1047. DOI: 10.1016/S1359-835X(97)00073-0.
- 12. Deputat, J. (1997). Non-destructive methods of research on materials properties. Warsaw, Poland: Biuro Gamma Press (In Polish).
- 13. Śliwiński, A. (2001). Physics for industry. Ultrasounds and their applications (2nd ed). Warsaw, Poland: WNT Press (In Polish).
- 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).
- 15. Lewińska-Romicka, A. (2001). Non-destructive research. The basis of defectoscopy. Warsaw, Poland: WNT Press (In Polish).
- 16. Ostachowicz, W., Wandowski, T., Malinowski, P. (2008). Elastic Wave Phased Array for Damage Localisation, J. Theor. Appl. Mech. 46, 917-931. (In Polish).
- 17. Wróbel, G. (2008). Non-destructive methods of engineer research on polymer materials. Gliwice, Poland: Silesian University of Technology Publishing, (In Polish).
- 18. Rojek, M., Szymiczek, M., Wróbel, G. (2011). Non-destructive methods of research on polymer materials, Plast. Proces. 6(144), 507-510 (In Polish).
- 19. Rojek, M. (2011): Methodology of diagnostics research of layered composite materials with polymer warp. Gliwice, Poland: International OCSCO World Press (In Polish).
- 20. Martin, R. (2008). Ageing of composites, Cambridge, England: Woodhead Publishing Limited.
- 21. Bogdan-Włodek, A., Kozioł, M. & Myalski, J. (April, 2012). Influence of surface treatment on the wetting process of jute fibres with thermosetting polyester resin. Pol. J. Chem. Tech. 14,1, 21-27. DOI: 10.2478/v10026-012-0054-9.
- 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.
- 23. Harris, B. (2003). Fatigue in composites, Cambridge, England: Woodhead Publishing Limited.
- 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.
- 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.
- 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.
- 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.
- 28. Standards Association of Poland (1993). Poland standard: Plastics - Determination of flexural properties. PN-EN ISO 178-1993.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-7b68d1ac-3afe-4d57-82df-d2a04bc0d99b