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A model of heat transfer in composites subjected to thermographic testing

Wybrane pełne teksty z tego czasopisma
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Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Purpose: The aim of the paper is to present a model of heat transfer taking place during thermovision testing of polymer composites. The purpose of thermographic tests was to identify thermal properties of searched material and to correlate them with working characteristics. Design/methodology/approach: Heat transfer model of composite samples mounted in thermographic test stand of our own design was elaborated. The model was applied as a tool of tested material characteristics identification and forming the basis of laminate degradation degree diagnosis. Findings: The most essential result of the project is the physical and numerical heat transfer model. Good conformity between model predictions and exemplary experimental results was achieved. Research limitations/implications: Experimental results of heat transfer through the composite mounted in thermographic testing stand proved the correctness of developed model. Results of physical properties identification showed the possibility of non-destructive diagnosis of wide class of materials. Practical implications: Results of presented project together with results of planned experimental programme devoted to elaboration of diagnostic relations enable to apply thermography directly to the state of polymeric structural materials assessment. Originality/value: Originality of the project is based on possibility of practical application of the model to simulate heat transfer through tested sample mounted in thermographic test stand. Proposed method of diagnostic tests was not interesting for scientists till now.
Rocznik
Strony
105--108
Opis fizyczny
Bibliogr. 22 poz.
Twórcy
autor
autor
  • Division of Metal and Polymer Materials Processing, Institute of Engineering Materials and Biomaterials, Silesian University of Technology, ul. Konarskiego 18a, 44-100 Gliwice, Poland, jozef.stabik@polsl.pl
Bibliografia
  • [1] X.P.V. Maldague, Theory and Practice of Infrared Technology for Nondestructive Testing, Wiley-Interscience, New York, 2001.
  • [2] S. Poloszyk, Active thermovision in non-destructive testing, Proceedings of the Conference "Manufacturing'01" M'01, Poznan, 2001, 2, 221-228 (in Polish).
  • [3] D. Bates, G. Smith, D. Lu, J. Hewitt, Rapid thermal non destructive testing of aircraft components, Composites B 31 (2001) 75-185.
  • [4] N. Rajic, Principal component thermography for flaw contrast enhancement and flaw depth characterization in composites structures, Composite Structures 58 (2002) 521-528.
  • [5] C. Meola, G.M. Carlomagno, A. Squillace, A. Vitiello, Nondestructive evaluation of aerospace materials with lock-in thermography, Engineering Failure Analysis 13 (2006) 380-388.
  • [6] E.G. Hanneke, K.L. Reifsnider, W.W. Stinchcomb, Thermography - An NDI Method for Damage Detection, Journal of Metals 31( 1979) 11-15.
  • [7] G. Muzia, Z. Rdzawski, M. Rojek, J. Stabik, G. Wróbel, Diagnostics basis of thermographic investigation of epoxyglass composites' degradation process, Proceedings of the International Conference "Machine Building and Technosphere of XXI Century", Donieck, 2007, 5, 167-170.
  • [8] G. Muzia, Z. Rdzawski, M. Rojek, J. Stabik, G. Wróbel, Diagnostic basis of thermographic investigation of epoxyglass composites' degradation process, Journal of Achievements in Materials and Manufacturing Engineering 24/2 (2007) 123-126.
  • [9] G. Wróbel, G. Muzia, Z. Rdzawski, M. Rojek, J. Stabik, Thermographic diagnosis of fatigue degradation of epoxyglass composites, Journal of Achievements in Materials and Manufacturing Engineering 24/1 (2007) 131-136.
  • [10] I.M. Daniel, T. Liber, Non-destructive Evaluation Techniques for Composite materials, Proceedings of the 12th Symposium on NDE, ASNT and NTIAC, San Antonio, 1979, 226-244.
  • [11] J. Deputat, Non destructive testing of materials properties, Gamma Publisher, Warsaw, 1997.
  • [12] P.K. Mallick, Composites Engineering Handbook: Nondestructive tests, Marcel Dekker Inc., New Jork-Basel-Hong Kong, 1997.
  • [13] 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.
  • [14] G. Wróbel, Ł. Wierzbicki, Ultrasonic methods in diagnostics of glass polyester composites, Journal of Achievements in Materials and Manufacturing Engineering 20 (2007) 206-206.
  • [15] F. Kreith, Principles of heat transfer, IEP - A Dun-Donnelley Publisher, New York ,1976.
  • [16] S. Ochęduszko, Applied thermodynamics, WNT, Warsaw, 1970 (in Polish).
  • [17] E.H. Wichmann, Quantum Physics, PWN, Warsaw, 1973 (in Polish).
  • [18] J. Szmelter, Computational methods in mechanics, PWN, Warsaw, 1980 (in Polish).
  • [19] E. Majchrzak, B. Mochnacki, Numerical Methods, Silesian University of Technology Publishing House, Gliwice, 2004 (in Polish).
  • [20] N. Grassie, G. Scott, Polymer degradation and stabilisation, Cambridge University Press, 1985.
  • [21] A. Balin, G. Junak, Investigation of cyclic creep of surgical cements, Archives of Materials Science and Engineering, 28/5 (2007) 281-284.
  • [22] A. Balin, G. Junak, Low-cycle fatigue of surgical cements, Journal of Achievements in Materials and Manufacturing Engineering 20 (2007) 211-214.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BSL8-0028-0023
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