234               Engineered interfaces in fiber reinfbrced composites

                    Li,  Z.F.,  Netravali,  A.N.  and  Sachse, W. (1992). Ammonia  plasma  treatment  of  ultra-high  strength
                      polyethylene fibers for improved adhesion to epoxy resin. J. Mater. Sci. 27, 4625-4632.
                    Liao, Y.T. (1989). A study of glass fiber-epoxy composite interface. Polym. Composites 10, 424-428.
                    Lowden, R.A.  (1991). In Advanced  Composite Materials. Ceramic Trans.,  19, American Ceramic Soc.
                      Westerville, OH, p. 619.
                    Lowden, R.A.  and More, K.L. (1989). The effect of fiber coatings on interfacial shcar strength and the
                      mechanical behavior of ceramic composites, in Interfaces in  Composites, Mat. Res. Soc. Symp. Proc.
                      Vol. 170 (C.G. Pantano and E.J.H. Chen, eds.), MRS, Pittsburgh, PA.
                    McGarry, F.J. (1958). In Proc. 13th Annual  Tech. Conf. Reinforced Plustics Div. SPI, Sec. Il-A.
                    McKee, D.W. (1970). The copper-catalyzed oxidation of graphite.  Carbon 8, 131-139.
                    Madhukar, M.S. and Drzal, L.T. (1991a). Fiber-matrix  adhesion and its effect on composite mechanical
                      properties: I.  In plane and  interlaminar  shear behavior of  graphite/epoxy composites. J. Composite
                      Mater. 25, 932-957.
                    Madhukar,  M.S. and Drzal, L.T. (1991b). Fiber-matrix  adhesion and its effect on composite mechanical
                      properties: 11.  Longitudinal  (0')  and transverse (90") tensile and flexure behavior of  graphite/epoxy
                      composites. J. Composite Mater. 25, 958-991.
                    Madhukar,  M.S. and Drzal, L.T.  (1992a). Fiber-matrix  adhesion and its effect on composite mechanical
                      properties: 111.  Longitudinal  (OO)  and transverse (90") tensile and flexure behavior of graphite/epoxy
                      composites. J. Composite Muter. 25, 958-991.
                    Madhukar, M.S. and Drzal, L.T. (1992b). Fiber-matrix  adhesion and its effect on composite mechanical
                      properties: IV. Mode I and Mode 11 fracture toughness of graphite/epoxy composites. J. Composite
                      Mater. 26, 936-968.
                    Maheshwari,  A.,  Chawla,  K.K.  and  Michalske,  T.A.  (1989).  Behavior  of  interface  in  alumina/glass
                      composite. Muter. Sci. Eng. A107, 269-276.
                    Mai, Y.W. (1994). Advances in Inorganic  Fiber  Technology, Guest Editor, Special Issue, Composites Sci.
                       Technol. 51,  123-125.
                    Marks,  B.S., Mauri,  R.E.,  Bradshaw,  W.G. (1975). New  graphite  surface  treatments.  In  Proc.  12th
                      Biennial Conference on Carbon, Pittsburg, PA, p. 337.
                    Manfredo,  L.J. and McNally, R.N. (1 984). J. Am. Ceram. Soc. 67, C-155.
                    Martineau P., Pailler, R., Lahaye, M. and Naslain,  R. (1984). Sic filament/titanium matrix composites
                      regarded as model composites. part 11, J. Muter. Sci. 19, 2749-2770.
                    Metcalfe,  A.G.  (1974).  Physical  chemical  aspects  of  the  interface.  In  Interfuces  in  Metal  Matrix
                      Composites, Composite Materials, Vol.  I. Academic Press, New York.
                    Michalske, T.A. and Hellmann, J. (1 988). Strength and toughness of continuous alumina fiber reinforced
                      glass matrix composites. J. Am. Ceram. Soc. 71, 725-731.
                    Morin, D. (1976), Boron carbide-coated  boron filament as reinforcement in aluminium alloy matrices.
                      J. Less Common Metals 47, 207-213.
                    Misra,  A.K.  (1994). Modification of the fiber/matrix interface in  aluminide-based intermetallic matrix
                      composites. Composites Sci. Technol. 50, 3748.
                    Morgan,  R.J.  and  Allred,  R.E.  (1993).  Aramid  fiber  composites.  In  Handbook  of  Composite
                       Reinforcement, VCH Publication, New York, pp. 5-24.
                    Naslain, R., Dugne, O., Guette, A, Sevely, J., Robin-Brosse, C.R., Rocher, J.P. and Cotteret, J. (1991a).
                       Boron nitride interphase in ceramic-matrix composites, J. Am. Ceram. Sor. 74, 205-214.
                    Naslain, R., Dugne, O., Guette, A, Sevely, J., Brosse, C.R., Rocher, J.P. and Cotteret, J. (1991b). Boron
                       nitride interphase in ceramic-matrix composites. J. Am. Ceram. Soc. 74, 2482-2488.
                    Nicholas, M. (1968). The strength of metal/alumina interfaces. J. Mater. Sei. 3, 571-576.
                    Noone, M.J., Feingold, E., Sutton, W.H. (1969). In Inteyfuces in  Composites. ASTM STP 452, ASTM,
                      Philadelphia, PA, pp. 59-89.
                    Norita, T., Matsui, J., Matsuda, H.S. (1986). Effects of surface treatment of carbon fiber on mechanical
                      properties of CFRP. In Proc. ICCI-I. Composite Interfuces (H. Ishida and J.L. Koenig, eds.), Elsevier
                       Sci. Pub. New York, pp.  123-132.
                    Novak, R.C. (1969). Fracture in graphite filament reinforced epoxy. In Composite Materink: Testing and
                      Design. ASTM STP 460. ASTM, Philadelphia, PA, pp.  54&549.