2 Hopkins DA, Chamis CC. A unique set of micromechanics equations for high temperature metal matrix composites. NASA TM 87154, 1985
[3]
3 Chamis CC. Mechanics of composite materials: Past, present and future. Comp Technol Res ASTM, 1989, 11(1):3-14
[4]
4 Hill R. Theory of mechanical properties of fiber-strengthened materials. Elastic Behavior J Mech & Phys Solid, 1964, 12(12): 199-212
[5]
5 Hill R. A self-consistent mechanics of composite materials. J Mech & Phys Solid, 1965, 13(4): 213-222
[6]
6 Hashin Z, Rosen BW. The elastic moduli of fiber-reinforced materials. J Appl Mech, 1964, 31(2): 223-232
[7]
7 Hashin Z. On elastic behavior of fiber-reinforced materials. J Mech & Phys Solid, 1965, 13(3): 119-134
[8]
8 Huang ZM. Micromechanical prediction of ultimate strength of transversely isotropic fibrous composites. In-ternational Journal of Solid & Structures, 2001, 38(22-23):4147-4172
[9]
9 Huang ZM. Simulation of the mechanical properties of fi-brous composites by the bridging micromechanics model. Composites Part A, 2001, 32(2): 143-172
[10]
10 Robert MJ. Mechanics of Composite Materials (2nd edi-tion). Virginia: Taylor & Francis, Inc., 1998
