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Chapter 8.  Improvement of  interlaminar fracture toughness  with interfuce  control   363

                Kim, J.K.,  Leung, L.M., Lee. S.W.R. and Hirai, Y. (1996). Impact performance of a woven fabric CFRP
                  laminates. Polym. Polym. Composites 4, 549-561.
                Kim. J.K., Mackay, D.B. and Mai, Y.W., (1993). Drop weight impact tolerance  of CFRP with rubber
                  modified  epoxy matrix. Composires 24, 458494.
                Kim,  R.Y. (1983).  Prevention  of  free-edge  delamination.  in  Proc.  qf’  the  28th  National  SAMPE
                  Symposium, April  1983.
                Kim.  R.Y. (1989).  Experimcntal  observations of  free-edge delamination. In  Interlaminar  Response  qf’
                  Composite Materials (N.J. Pagano ed.), Elsevier Sci. Pub., Amsterdam, Ch. 3, pp.  11 1-160.
                Kim.  R.Y. and Soni, S.R. (1984). Experimental  and analytical  studies on the onset of delamination  in
                  laminates composites. J. Composire Muter. 18, 7&80.
                Kinloch, A.J. (1986). Rubber toughened thermosetting polymers. In Development  in  Resins and Primers
                  (A.J. Kinloch ed.), Elsevier Appl. Sci. Pub.,  London.
                Kinloch, A.J. (1987). Adhesion and Adhesives: Science and Technology. Chapman & Hall, London.
                Kinloch A.J. and Shaw S.J. (1981). Fracture resistance of a toughened epoxy adhesive. J. Adhesion 12. 59-
                  77.
                Kinloch, A.J. & Young, R.J. (1986). In  Structural Adhesives: Developments  in  Resins and primers  (A.J.
                  Kinloch ed.), Elsevier Appl. Sci. Pub., London, p.  127 & 163.
                KO, F.K. (1989). Three dimensional fabrics for composites. In Textile Srructurul Composites (T.W. Chou
                  and  F.K. KO, eds.), Elsevier Sci. Pub. B.V., Amsterdam.  Ch. 5, pp.  129-171.
                KO, F.K., Oastore, C.M., Yang, J.M. and Chou, T.W. (1986). Structure and properties  of multi-layer,
                  multidirectional warp knit fabric reinforced composites. In Composites’86: Recent  Advances in Japan
                  and the  United States, Japan Society for Composite Materials, Tokyo.
                Lagace, PA. and Bhat, N.V. (1992). Efficient use of film adhesive interlayers to suppress delamination. In
                  Composite Muteriu1.7: Testing and Design (10th VolumeJ, ASTM STP 1120 (G.C. Grimes ed.), ASTM.
                  Philadelphia,  PA, pp. 384396.
                Lee S.M. (1 984). Correlation between resin material variables and transverse cracking in composites. .I.
                  Mater. Sci. 19, 2278-2288.
                Lee S.M. (1987). Fracture of adhesive joints and laminated composites. Polym. Eng. Sci. 27, 77-81.
                Lee.  C. and  Liu.  D. (1990). Tensile strength of  stitching joint  in  woven  glass fabrics. J. Eng.  Mater.
                  Technol. 112,  125-130.
                Leong,  K.H.,  Herszberg,  I. and  Bannister,  M.K. (1996). An  investigation  of  fracture mechanisms of
                  carbon  epoxy  laminates  subjected  to  impact  and  compression-after-impact  loading.  In  Proc.  /st
                  Austrulasiun  Congress on Applied  Mechanics, Melbourne, pp. 3 15-320.
                Liu, D. (1990). Delamination resistance in stitched and unstitched composite plates subjected to impact
                  loading. J. Reinforced Plust. Composites 9, 59-69.
                Llanos, AS. and Vizzini, A.J. (1992). The effect of film adhesive on the delamination strength of tapered
                  composites. J. Composite  Muter. 26, 1968-1983.
                Low, I.M. and  Mai, Y.W. (1990). Fracture properties  and failure mechanisms of pure and toughened
                  cpoxy resins. In Handbook qf Cerumics (N.P. Cheremisinoff ed.), Marcel Dekker, New York, pp.  105-
                  160.
                Lu, W.H., Liao, F.S.. Su, A.C., Kao, P.W. and Hsu, T.J. (1995). Effect of interleaving on  the impact
                  response of  a unidirectional carbon/epoxy composite. Composites 26, 21 5-222.
                Masters.  J.E.  (I 987a).  Correlation  of  impact  and  interleaf  delamination  resistance  in  interleaved
                  laminates. In  Proc.  6th Intern.  ConJ  Composite  Muter.  IICCM-VI) (F.L. Matthews et  al.. eds.),
                  Elsevier Appl. Sci.. London, pp 3.963.107.
                Masters. J.E. (1 987b). Characterisation of impact damage development in  graphite/epoxy  laminates. In
                  Fructographj  of  Modern  Engineering  Materials:  Composites  and  Metuls,  ASTM  STP 948,  ASTM,
                  Philadelphia.  PA, pp. 238-258.
                Masters, J.E. (1989). Improved impact and delamination resistance through interleaving. Key Eng. Muter.
                  37, 317-348.
                Mayadas,  A.  Pastore.  C,  KO,  F.K.  (1985).  Tensile  and  shear  properties  of  composites  by  various
                  reinforcement concepts. In Proc. 30rh Int. SAMPE Symp. pp. 12841293.
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