Yu A, Ait-Kadi A, Brisson J. Nylon/Kevlar Composites.Ⅰ: Mechanical Properties [J]. Polym Eng Sci, 1991,31 (16): 1222-1227.
[2]
Bigg D M. Mechanical properties of particulate filled polymers [J]. Polymer Composite, 1987, 8: 112-122.
[3]
Pande S J, Sharma D K. Strength and stiffness of short glass fiber/glass particulate hybrid composites [J]. Fibre Sci Technol, 1984, 20:235-243.
[4]
Yilmazer U. Tensile, flexural and impact properties of a thermoplastic matrix reinforced by glass fiber and glass bead hybrids [J]. Compos Sci Technol, 1992, 44: 119-125.
[5]
Hargarter N, Friedrich K, Catsman P. Mechanical properties of glass fiber/talc/polybutylene-terephthalate composites as processed by the radlite technique [J]. Compos Sci Technol,1993, 46: 229-244.
[6]
Fu S Y, Bernd L. Characterization of tensile behavior of hybrid short glass fibre/calcite particle/ABS composites [J]. Composites,Part A, 1998, 29A: 575-583.
[7]
Li P C, Goettler L A, Hamed P. Anisotropy of composites: mechanical and solvent-swelling characteristics [J]. J Elastom Plast, 1978, 10: 59-77.
[8]
Fu S Y, Lauke B. Effects of fiber length and fiber orientation distributions on the tensile strength of short fiber reinforced polymers(SFRP) [J]. Compos Sci Technol, 1996, 56:1179-1190.
[9]
Piggott M R. Short fiber polymer composites: a fracture-based theory of fiber reinforcement [J]. J Compos Mater, 1994, 28: 588-606.
[10]
Jayaraman K, Kortschot M T. Correction to the Fukuda-Kawata Yong's modulus theory and the Fukuda-Chou strength theory for short fiber reinforced composite materials [J]. J Mater Sci, 1996, 31: 2059-2064.
