Chapter 8.  Improvement  of interlaminar ,fracture toughness with interface  control   365

                Singh,  S.  and  Partridge,  I.K.  (1995).  Mixed  mode  fracture  in  an  interleaved  carbon  fiber-epoxy
                  composite. Composites Sci. Technol. 55, 3 19-327.
                Sohi.  M.M.,  Hahn,  H.T.  and  Williams, J.G.  (1987).  The effect  of  resin  toughness  and  modulus on
                  compressive failure  modes  of  quasi-isotropic  graphite/epoxy  laminates.  In  Toughened  Composites.
                  ASTM STP 937 (N.J. Johnston ed.), ASTM, Philadelphia, PA, pp 37-60.
                Sohn, M.S. and Hu, X.Z. (1994). Mode I1 delamination toughness ofcarbon fiber/epoxy composites with
                  chopped Kevlar fiber reinforced composites, Composites Sci. Technol. 52, 439448.
                Srinivasan, K., Jackson, W.C., Smith, B.T.,  Hinkley, J.A. (1992). Characterization of damage in impact
                  thermoset and thermoplastic composites. J. Reinforced  Plast. Comp0site.s 11,  1 I1 1-1  126.
                Sue. H.J., Jones, R.E. and Garcia-Meitin, E.I. (1993). Fracture behavior of model toughened composites
                  under mode I  and mode I1 delamination. J. Mater. Sci. 28, 638 1-6391,
                Sultan J.N., Raible  R.C. and  McGarry  F.J. (1971). Microstructure of  two-phase  polymers.  J. Appl.
                  Polwz. Sci. 6, 627-634.
                Sun, C.T. and Luo, J. (1988). Failure loads for notched graphite/epoxy laminates with a softening strip.
                  Composites Sei. Technol. 22, 121-133.
                Sun, C.T. and Norman, T.L. (1990). Design of a laminated composite with controlled  damage concept.
                  Composites Sci.  Technol. 39. 327-340.
                Sun. C.T. and Rechak, S. (1988). Effect of adhesive layers on impact damage in composite laminates in
                  Composite Materials Testing and Design (8th Conf.) ASTM  STP 972 (J.D.  Whitcomb ed.). ASTM,
                  Philadelphia.  PA, pp 97-123.
                Tada, Y. and Ishikawa. T. (1989). Experimental evaluation of the effects of stitching on CFRP laminate
                  specimens with various shapes and loading.  Key Eng. Mater. 37, 305-316.
                Wang, S.S. and  Choi. I.  (1982). Boundary  layer effects in  composite laminates. Part  I: free-edge stress
                  singularities J. Appl. Mech. 49, 541-548.
                Wang,  A.S.D.  and  Crossman, F.W.  (1977). Some new  results on edge effect  in  symmetric composite
                  laminates. J. Composite Mater. 11, 92-106.
                Whitney,  J.M.  and  Browning, C.E. (1973).  Free edge delamination of  tensile coupons. J. Compositc~
                  Mater. 6. 30CL303.
                Wilkins, D.J. (1983). Failure analysis and mechanisms of failure of fibrous composite structures. NASA
                  CP-2278. 67-93.
                Williams. J.G. and Rhodes, M.D. (1982). Effect of resin on impact damage tolerance of grdphitejepoxy
                  laminates. In Composite Muterials: Testing and Design  (6fh Cot$)  ASTM STP 787 (I.M. Daniel ed.),
                  ASTM, Philadelphia,  PA, pp 45W80.
                Wu. E. and Wang, J. (1995). Behaviour of stitched laminates under in-plane tensile and transverse impact
                  loading. J. Composite Mater. 29, 22542219.
                Xu,  L.Y. (1996). Modifying  stacking  sequence design  to delay  delamination  and  matrix  cracking  in
                  laminated composites - The multi delamination  interface design. J. Reinforced  Plast. Composites  15.
                  230-248.
                Yee.  A.F.  and  Pearson, R.A.  (1986).  Toughening mechanisms  in  elastomer modified epoxies: part  I.
                  Mechanical Studies. J. Mater. Sci. 21, 2462.