An Experimental Investigation on Fracture Analysis of Polymer Matrix Composite under Different Thermal Cycling Conditions
Subject Areas : Engineering
1 - Faculty of Mechanical Engineering, Department of Solid Mechanics, University of Kashan, Kashan, Iran
2 - Faculty of Mechanical Engineering, Department of Solid Mechanics, University of Kashan, Kashan, Iran
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[1] Kessler S., McManus H., Matuszeski T., 2001, The effects of cryo-cycling on the mechanical properties of IM7/977-2, Proceedings of the American Society for Composites, Blacksburg.
[2] Paillous A., Pailler C., 1994, Degradation of multiply polymer-matrix composites induced by space environment, Composite 25(4): 287-295.
[3] Ramanujam N., Vaddadi P., Nakamura T., Singh R.P., 2008, Interlaminar fatigue crack growth of cross-ply composites under thermal cycles, Composite Structures 85: 175-187.
[4] Eselun S.A., Neubert H.D., Wolff E.G., 1979, Microcracking effects on dimensional stability, National SAMPE Technical Conference, Proceedings of the 24th Conference.
[5] Rinaldi G., Maura G., 1993, Durable glass–epoxy composites cured at low temperatures– effects of thermal cycling, UV irradiation and wet environmental, Polymer International 31(3): 339-345.
[6] Cohen D., Hyer M.W., Tompkins S.S., 1984, The effects of thermal cycling on matrix cracking and stiffness changes in composite tubes, National SAMPE Technical Conference, Proceedings of the 16th Conference.
[7] Ghasemi A.R., Baghersad R., Sereshk M.R.V., 2011, Non-linear behavior of polymer based composite laminates under cyclic thermal shock and its effects on residual stresses, Journal of Polymer Science and Technology 24(2): 133-140.
[8] Adams D.S., Bowles D.E., Herakovich C.T., 1986, Thermally induced transverse cracking in graphite-epoxy cross-ply laminates, Journal of Reinforced Plastics & Composites 3: 152-169.
[9] Rouquie S., Lafarie_Frenot M. C., Cinquin J., Colombaro A. M., 2005, Thermal cycling of carbon/epoxy laminates in neutral and oxidative environments, Composites Science and Technology 65: 403-409.
[10] Scida D., Assarar M., Poilâne C., Ayad R., 2013, Influence of hygrothermal ageing on the damage mechanisms of flax-fibre reinforced epoxy composite, Composites Part B:Engineering 48: 51-58.
[11] Lafarie-Frenot M.C., Rouquie S., 2004, Influence of oxidative environments on damage in c/epoxy laminates subjected to thermal cycling, Composite Science and Technology 64(10-11): 1725-1735.
[12] Mouzakis D.E., Zoga H., Galiotis C., 2008, Accelerated environmental ageing study of polyester/glass fiber reinforced composites (GFRPCs), Composites Part B:Engineering 39: 467-475.
[13] Lafarie-Frenot M.C., Ho N. Q., 2006, Influence of free edge intralaminar stresses on damage process in CFRP laminates under thermal cycling conditions, Composites Science and Technology 66(10): 1354-1365.
[14] Devore J.L., Farnum N.R., 1999, Applied Statistics for Engineering and Scientists, Duxbury Press, Pacific Grove, CA.
[15] Ju J., 2007, Transverse cracking of M40J/PMR-II-50 composites under thermal-mechanical loading: Part I- Characterization of main and interaction effects using statistical design of experiments, Journal of Composite Materials 41(9): 1067-1086.
[16] Lochner R.H., Matar J.E.,1990, Design for Quality–An Introduction to the Best of Taguchi and Western Methods of Statistical Experimental Design, New York.
[17] Vankanti V.K., Ganta V., 2014, Optimization of process parameters in drilling of GFRP composite using Taguchi method, Journal of Material Research & Technology 3(1): 35-41.
[18] ASTM D3039/ D 3039 M-95a, 1997, Standard test method for tensile properties of polymer matrix composite materials.
[19] Ghasemi A.R., Moradi M., 2015, Surface degradation of polymer matrix composites under different low thermal cycling conditions, Journal of Solid Mechanics 9(1): 54-62.
[20] MINITAB 17 statistical software, Minitab Inc, 2013.
