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Abstrakty
Since self-heating effect may significantly intensify structural degradation, it is essential to investigate its criticality, i.e. the temperature value at which fatigue fracture is initiated. In this paper, a new and sensitive criticality indicator based on evaluation of evolution of surface temperature distribution was proposed and experimentally validated. It was shown that comparing to other measurement techniques the presented approach allows for precise evaluation of the critical value of the self-heating temperature. The properly determined critical value may be helpful both during design and operation of elements made of polymers and polymeric composite.
Wydawca
Czasopismo
Rocznik
Strony
5--12
Opis fizyczny
Bibliogr. 16 poz., rys., wykr.
Twórcy
autor
- Silesian University of Technology, Faculty of Mechanical Engineering, Institute of Fundamentals of Machinery Design, Konarskiego 18A, Gliwice 44-100, Poland
Bibliografia
- 1. Katunin A., Fidali M.: Fatigue and thermal failure of polymeric composites subjected to cyclic loading, Advanced Composites Letters 21 (2012) 64-69.
- 2. Talreja R.: Fatigue of Composite Materials, Technomic Publishing Company Inc., Lancaster, PA, 1987.
- 3. Toubal L., Karama M., Lorrain B.: Damage evolution and infrared thermography in woven composite laminates under fatigue loading, International Journal of Fatigue 28 (2006) 1867-1872.
- 4. Ferreira J.A.M., Costa J.D.M., Reis P.N.B., Richardson M.O.W.: Analysis of fatigue and damage in glass-fibre-reinforced polypropylene composite materials, Composites Science and Technology 59 (1999) 1461-1467.
- 5. Pegoretti A., Riccò T.: Fatigue crack propagation in polypropylene reinforced with short glass fibres, Composites Science and Technology 59 (1999) 1055-1062.
- 6. Katunin A.: Critical self-heating temperature during fatigue of polymeric composites under cyclic loading, Composites Theory and Practice 12 (2012) 72-76.
- 7. Naderi M., Kahirdeh A., Khonsari M.M.: Dissipated thermal energy and damage evolution of glass/epoxy using infrared thermography and acoustic emission, Composites: Part B 43 (2012) 1613-1620.
- 8. Kahirdeh A., Khonsari M.M.: Criticality of degradation in composite materials subjected to cyclic loading, Composites: Part B 61 (2014) 375-382.
- 9. Katunin A., Wronkowicz A., Bilewicz M.: Evaluation of critical self-heating temperature of composite structures based on analysis of microcrack development, Composites Theory and Practice 17 (2017) 9-13.
- 10. Katunin A., Wronkowicz A., Bilewicz M., Wachla D.: Criticality of self-heating in degradation processes of polymeric composites subjected to cyclic loading: A multiphysical approach, Archives of Civil and Mechanical Engineering 17 (2017) 806-815.
- 11. Facchini M., Botsis J., Sorensen L.: Measurements of temperature during fatigue of a thermoplastic polymer composite using FBG sensors, Smart Materials and Structures 16 (2007) 391-398.
- 12. Goidescu C., Welemane H., Garnier C., Fazzini M., Brault R., Péronnet E., Mistou S.: Damage investigation in CFRP composites using full-field measurement techniques: Combination of digital image stereo-correlation, infrared thermography and X-ray tomography, Composites: Part B 48 (2013) 95-105.
- 13. Katunin A.: Analysis of temperature distribution in composite plates during thermal fatigue, Modelling in Engineering 16 (2013) 99-105.
- 14. Backe D., Balle F., Eifler D.: Fatigue testing of CFRP in the Very High Cycle Fatigue (VHCF) regime at ultrasonic frequencies, Composites Science and Technology 106 (2015) 93-99.
- 15. Magi F., Di Maio D., Sever I.: Damage initiation and structural degradation through resonance vibration: Application to composite laminates in fatigue, Composites Science and Technology 132 (2016) 47-56.
- 16. Katunin A., Wronkowicz A.: Evolution of a fracture mechanism in a polymeric composite subjected to fatigue with self-heating effect, Procedia Structural Integrity 5 (2017) 416-421.
Uwagi
PL
Opracowanie rekordu w ramach umowy 509/P-DUN/2018 ze środków MNiSW przeznaczonych na działalność upowszechniającą naukę (2019).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-d194f892-c1c1-4717-ade5-4781013c93dd