A New Numerical Procedure for Determination of Effective Elastic Constants in Unidirectional Composite Plates
Subject Areas : EngineeringS Daryazadeh 1 , L Lvov Gennadiy 2 , M Tajdari 3
1 - National Technical University , Kharkov Polytechnic Institute, Ukraine, Kharkov
2 - National Technical University , Kharkov Polytechnic Institute, Ukraine, Kharkov
3 - Department of Mechanical Engineering, Islamic Azad University, Arak Branch, Arak, Iran
Keywords:
Abstract :
[1] Voigt W., 1889, Uber die beziehung zwischen den beiden elastizitatskonstanten isotroper korper, Wiedemann's Annalen 38 : 573-587.
[2] Reuss A., 1929, Berechnung der fliessgrense von mischkristallen auf grund der plastizitatsbedingun fur einkristalle, Zeitschrift Angewandte Mathematik und Mechanik 9 : 49-58.
[3] Halpin J.C., Kardos J.L., 1976, The halpin-tsai equations: a review, Polymer Engineering and Science 16(5): 344-352.
[4] Chamis C.C., 1989, Mechanics of composite materials: past, present and future, The Journal of Composites Technology and Research 11: 3-14.
[5] Hashin Z., Rosen B.W., 1964, The elastic moduli of fiber reinforced materials, Journal of Applied Mechanics 31: 223-232.
[6] Christensen R.M., 1990, A critical evaluation for a class of micromechanical models, Journal of Mechanics and Physics of Solids 38(3): 379- 404.
[7] Mori T., Tanaka K., 1973, Average stress in matrix and average elastic energy of materials with misfitting inclusions, Acta Metallurgica 21: 571-574.
[8] Hill R., 1965, Theory of mechanical properties of fiber-strengthen materials-3 self-consistent model, Journal of Mechanics and Physics of Solids 13 :189-198.
[9] Bubiansky B., 1965, On the elastic modulli of some heterogeneous materials, Journal of Mechanics and Physics of Solids 13: 223-227.
[10] Chou T.w., Nomura S., Taya M., 1980, A self- consistent approach to the elastic stiffness of short-fiber composites, Journal of Composite Materials 14: 178-188.
[11] Huang Z.M., 2001, Simulation of the mechanical properties of fibrous composites by the bridging micromechanics model, Composites: Part A 32: 143-172.
[12] Huang Z.M., 2001, Micromechanical prediction of ultimate strength of transversely isotropic fibrous composites, International Journal of Solids and Structures 38: 4147-4172.
[13] Vanin G. A., 1985, Micro-Mechanics of Composite Materials, Nauka Dumka, Kiev.
[14] Carpeenosa D. M., 1985, Composite Materials, Nauka Dumka, Kiev.
