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The paper presents results of theoretical investigation on the character of energy dissipation in composite structures subjected to cyclic loading with various shapes of excitation signals. Such loading implies the occurrence of the self-heating effect due to the hysteresis, occurred from viscoelasticity of a polymer. Results of theoretical analysis show the differences between investigated cases, namely sine, square, triangle and sawtooth excitation signals, and their influence on the intensification of structural degradation of polymeric composites. The theoretical results were verified experimentally on the laboratory stand.
Słowa kluczowe
Czasopismo
Rocznik
Tom
Strony
5--14
Opis fizyczny
Bibliogr. 16 poz., rys., wykr.
Twórcy
autor
- Silesian University of Technology, Institute of Fundamentals of Machinery Design
autor
- Silesian University of Technology, Institute of Fundamentals of Machinery Design
autor
- Silesian University of Technology, Institute of Fundamentals of Machinery Design
Bibliografia
- 1. Dinzart, F., Molinari, A., and Herbach, R. (2008). Thermomechanical response of a viscoelastic beam under cyclic bending; self-heating and thermal failure. Archives of Mechanics, 60(1):59–85.
- 2. Kahirdeh, A. and Khonsari, M. (2014). Criticality of degradation in composite materials subjected to cyclic loading. Composites Part B: Engineering, 61:375–382.
- 3. Kahirdeh, A. and Khonsari, M. (2015). Energy dissipation in the course of the fatigue degradation: Mathematical derivation and experimental quantification. International Journal of Solids and Structures, 77:74–85.
- 4. Karnaukhov, V. and Senchenkov, I. (2003). Thermomechanical behavior of a viscoelastic finite circular cylinder under harmonic deformations. Journal of Engineering Mathematics, 46(3-4):299–312.
- 5. Katunin, A. (2010). Analytical model of the self-heating effect in polymeric laminated rectangular plates during bending harmonic loading. Eksploatacja i Niezawodność - Maintenance and Reliability, (4):91–101.
- 6. Katunin, A. (2011). The conception of the fatigue model for layered composites considering thermal effects. Archives of Civil and Mechanical Engineering, 11(2):333–343.
- 7. Katunin, A. (2012). Critical self-heating temperature during fatigue of polymeric composites under cyclic loading. Composites Theory and Practice, 12(1):72–76.
- 8. Katunin, A. and Fidali, M. (2012). Fatigue and thermal failure of polymeric composites subjected to cyclic loading. Advanced Composites Letters, 21(3):63–69.
- 9. Katunin, A. and Gnatowski, A. (2012). Influence of heating rate on evolution of dynamic properties of polymeric laminates. Plastics, Rubber and Composites, 41(6):233–239.
- 10. Naderi, M., Kahirdeh, A., and Khonsari, M. (2012). Dissipated thermal energy and damage evolution of glass/epoxy using infrared thermography and acoustic emission. Composites Part B: Engineering, 43(3):1613–1620.
- 11. Naderi, M. and Khonsari, M. (2010). An experimental approach to low-cycle fatigue damage based on thermodynamic entropy. International Journal of Solids and Structures, 47(6):875–880.
- 12. Naderi, M. and Khonsari, M. (2013). On the role of damage energy in the fatigue degradation characterization of a composite laminate. Composites Part B: Engineering, 45(1):528–537.
- 13. Ramkumar, A., Kannan, K., and Gnanamoorthy, R. (2010). Experimental and theoretical investigation of a polymer subjected to cyclic loading conditions. International Journal of Engineering Science, 48(2):101–110.
- 14. Rittel, D. (2000). An investigation of the heat generated during cyclic loading of two glassy polymers. part I: Experimental. Mechanics of Materials, 32(3):131–147.
- 15. Tan, T. and Dharan, C. (2010). Cyclic hysteresis evolution as a damage parameter for notched composite laminates. Journal of Composite Materials, 44(16):1977–1990.
- 16. Toubal, L., Karama, M., and Lorrain, B. (2006). Damage evolution and infrared thermography in woven composite laminates under fatigue loading. International Journal of Fatigue, 28(12):1867–1872.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-a0755580-0ed1-4919-8d1c-33a0a362d404