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http://yadda.icm.edu.pl:80/baztech/element/bwmeta1.element.baztech-article-BOS5-0020-0013

Czasopismo

Journal of Achievements in Materials and Manufacturing Engineering

Tytuł artykułu

Thermographic diagnosis of fatigue degradation of epoxy-glass composites

Autorzy Wróbel, G.  Muzia, G.  Rdzawski, Z. M.  Rojek, M.  Stabik, J. 
Treść / Zawartość http://www.journalamme.org
Warianty tytułu
Języki publikacji EN
Abstrakty
EN Purpose: The purpose of this paper was to describe results of application of thermography to evaluate the degree of fatigue degradation of epoxy-glass composites. Design/methodology/approach: Samples of epoxy-glass composite were subjected to fatigue degradation. During fatigue test, after defined number of cycles, samples were heated using infra-red heater and at the opposite side temperature increase was evaluated with thermovision camera. Findings: Analysis of achieved results allowed to elaborate relation between number of fatigue cycles and the degree of fatigue degradation. Such relation may be applied in diagnostic procedures. Research limitations/implications: Performed tests were of preliminary character and results will be applied to prepare research programme on thermographic testing of composites. Practical implications: Results of such tests may be applied in the future in diagnostic procedures to non-destructive evaluation of the degree of fatigue degradation of high performance polymer composites. Originality/value: Thermographic methods are applied up till now to non-destructive flaws detection. Proposed in the paper method may be applied to evaluate the degree of thermal and fatigue degradation in composites without any macroscopic flaws.
Słowa kluczowe
PL polimery   badania nieniszczące   termografia   kompozyty   zmęczenie  
EN engineering polymers   non-destructive testing   thermography   composites   fatigue  
Wydawca International OCSCO World Press
Czasopismo Journal of Achievements in Materials and Manufacturing Engineering
Rocznik 2007
Tom Vol. 24, nr 1
Strony 131--136
Opis fizyczny Bibliogr. 18 poz., fot., rys., tab.
Twórcy
autor Wróbel, G.
autor Muzia, G.
autor Rdzawski, Z. M.
autor Rojek, M.
autor Stabik, J.
  • Institute of Engineering Materials and Biomaterials, Silesian University of Technology, ul. Konarskiego 18 A, 44-100 Gliwice, Poland, jozef.stabik@polsl.pl
Bibliografia
[1] M. Rojek, J. Stabik, S. Sokół, Fatigue and ultrasonic testing of epoxy-glass composites, Journal of Achievements in Materials and Manufacturing Engineering 20 (2007) 183-186.
[2] G. Wróbel, Ł. Wierzbicki, Ultrasonic methods in diagnostic of glass-polyester composites, Journal of Achievements in Materials and Manufacturing Engineering 20 (2007) 203-206.
[3] S. Ochęduszko, Applied thermodynamics, WNT, Warsaw 1970 (in Polish).
[4] E.H. Wichmann, Quantum Physics, PWN, Warsaw 1973 (in Polish).
[5] S. Poloszyk, Active thermovision in non-destructive testing, Proceedings of the Conference Manufacturing'01 Vol. 2 (2001) 221-228 (in Polish).
[6] W. Oliferuk, Active thermovision in non-destructive testing of materials, Proceedings of the XII Conference Nondestructive testing of materials Zakopane (2006), 10-25.
[7] D. Bates, G. Smith, D. Lu, J. Hewitt, Rapid thermal non destructive testing of aircraft components, Composites B 31 (2001)75-185.
[8] N.P. Avdelidis, B.C. Hawtin, D.P. Almond, Transient thermography in the assessment of defects of aircraft composites. NDT and E International 36 (2003) 433-439.
[9] N.P. Avdelidis, C. Ibarra-Castanedo, X. Maldague, Z.P. Marioli-Riga, D.P. Almond, A thermographic comparison study for the assessment of composite patches, Infrared Physics and Technology 45 (2004) 291-299.
[10] M. Krishnapillai, R. Jones, I.H. Marshall, M. Bannister, N. Rajic, Thermography as a tool for damage assessment, Composite Structures 67 (2005) 149-155.
[11] C. Meola, G.M. Carlomagno, L. Giorleo, Geometrical limitations to detection of defects in comosite by means of infrared thermography, Journal of Nondestructive Evaluation 23 (2004) 4-8.
[12] N. Rajic, Principal component thermography for flaw contrast enhancement and flaw depth characterization in composites structures, Composite Structures 58 (2002) 521-528.
[13] C. Santulli, IR thermography study of the effect of moulding parameters on impact resistance in E-glass/polypropylene commingled laminates, NDT and E International 35 (2002) 377-383.
[14] D. Bates, G. Smith, D. Lu, J. Hewitt, Rapid thermal non-destructive testing of aircraft components, Composite B 31 (2000) 175-185.
[15] C. Meola, G. M. Carlomagno, A. Squillace, A. Vitiello, Non-destructive evaluation of aerospace materials with lock-in thermography, Engineering Failure Analysis 13 (2006) 380-388.
[16] T. Uhl, Dynamic thermography as a construction diagnosis tool, Proceedings of the XLVI Conference Modelling in mechanics Wisła (2007) (in press).
[17] TSE-6 Product Data, Izo- Erg Gliwice, Poland (2006) - www.izoerg.com.pl .
[18] G. Muzia, Z. Rdzawski, M. Rojek, J. Stabik, G. Wróbel, Thermovision diagnosis of the degree of fatigue degradation of epoxy-glass composites, Proceedings of the XLVI Conference Modelling in mechanics, Wisła 2007 (in press).
Kolekcja BazTech
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