Page 107 - Engineered Interfaces in Fiber Reinforced Composites
P. 107

90                Engineered interfaces in fiber reinforced composites

                    Miller, B., Gaur, U. and Hirt, D.E. (1991). Measurement of mechanical aspects of the microdebond pull-
                      out technique for obtaining fiber/resin interfacial shear strength. Composites Sci. Technol. 42,207-219.
                    Moon,  C.K.,  Cho,  H.H.,  Lee,  J.O.  and  Park,  T.W.  (1992).  A  solution  microbond  method  for
                      determination of the shear strength of a fiber/thermoplastic resin  interface. J. Appl. Polym. Sci. 44,
                      561-563.
                    Mooney, R.D. and McGarry, F.J. (1965). Resin-glass bond study. In 14th Annual Tech. Con$  Reinforced
                      Plast. Composites Inst. SPI, Paper  12E.
                    Morgan,  R.J.  and  Allred,  R.E.  (1993).  Aramid  fiber  composites.  In  Handbook  of  Composite
                      Reinforcements. (S.M.  Lee ed.), VCH Publishers, New York. pp. 5-24.
                    Morscher, G, Pirouz, P. and Hener, A.H. (1990). Temperature dependence of interfacial shear strength in
                      Sic-fiber-reinforced RBSN. J. Am. Ceram. SOC. 73, 713-720.
                    Nardin, M. and Schultz, J. (1993). Effect of elastic moduli and interfacial adhesion energy on the critical
                      fiber aspect ratio in single fiber composites. J. Mater. Sci. Letr. 12,  124S1247.
                    Netravali, A.N.,  Henstenburg, R.B.,  Phoenix, S.L. and Schwartz, P. (1989a). Interfacial shear strength
                      studies using the single filament composite test, part I Experiments on graphite fibers in epoxy. Pofym.
                      Composites 10, 226-241.
                    Netravali, A.N.,  Stone, D.,  Ruoff, S. and Topoleski, L.T.T.  (1989b). Continuous micro-indenter push-
                      through  technique  for  measuring interfacial shear  strength  of  fiber  composites.  Composites  Sci.
                       Technol.  34, 289-303.
                    Netravali,  A.N.,  Topoleski,  L.T.T.,  Sachse, W.H.  and  Phoenix,  S.L.  (1989~). An  acoustic emission
                      technique for measuring fiber fragment length distributions in single fiber composite test. Composites
                      Sci. Technof.  35, 13-29.
                    Netravali, A.N.,  Li, Z.F.,  Sachse, W.H. and Wu, H.F. (1991). Determination of fiber/matrix interfacial
                      shear strength by an acoustic emission technique. J. Mater. Sci. 26, 6631-6638.
                    O’Brien, T.K. (1984). Mixed-mode strain energy release rate effects on edge delamination of composites.
                       In Effects of Defects in Composite Materials, ASTM STP 836, ASTM, Philadelphia, PA. pp. 125-142.
                    O’Brien, T.K. (1985). Analysis of local deaminations and their influence on composite laminate behavior.
                      In  Delamination  and  Debonding  of  Materials,  ASTM  STP  876  (W.S.  Johnson,  ed.)  ASTM,
                      Philadelphia, PA. p 282.
                    O’Brien, T.K. and Martin, R.H. (1992). Results of ASTM  round robin testing for mode I interlaminar
                      fracture toughness of composite materials, NASA TM  104222.
                    O’Brien, T.K. and Martin, R.H. (1993). Round robin testing for mode I interlaminar fracture toughness
                      of composite materials. J. Composites Technol. Res. 15, 269-281.
                    Ogata, N., Yasumoto, H., Yamasaki, K., Yu. H., Ogihara, T., Yanagawa, T., Yoshida, K. and Yamada,
                      Y.  (1 992).  Evaluation of  interfacial properties between  carbon  fibers and  semi-crystalline thenno-
                      plastic matrices in single fiber composites. J. Muter. Sci. 27, 5108-5112.
                    Ohsawa, T., Nakayama, A., Miwa, M. and Hasegawa, A. (1978). Temperature dependence of critical fiber
                       length for glass fiber-reinforced thermosetting resins. J. Appl. Polym. Sci. 22, 3203-3212.
                    Penn, L.S., Tesoro, G.C. and Zhou, H.X. (1988). Some effects of surface-controlled reaction of Kevlar 29
                       on the interface in epoxy composites. Polym. Composites 9, 184-191.
                    Petit,  P.H.  (1969).  A  simplified  method  of  determining the  in-plane shear  stress-strain response of
                      unidirectional composites. In Composite  Materials:  Testing and  Design, ASTM  STP 460,  ASTM,
                      Philadelphia, PA, pp. 83-93.
                    Pindera, M.J.,  Choksi, G.,  Hidde, J.S. and Herakovich, C.T. (1987). A methodology for accurate shear
                      characterization of unidirectional composites. J. Composites Mater. 21,  1 164-1 184.
                    Pitkethly, M.J., Favre, J.P., Gaur, U., Jakubowski, J., Mudrich, S.F. Caldwell, D.L.,  Drzal, L.T.,  Nardin,
                       M., Wagner, H.D., Di Landro, L.,  Hampe, A.,  Armistead, J.P.,  Desaeger, M. and Verpoest, I. (1993).
                      A round robin programme on interfacial test methods.Composites Sci. Technof. 48, 205-214.
                    Pitkethly, M.J. and Doble, J.B. (1990). Characterizing the fiber/matrix interface  of carbon fiber-reinforced
                      compositcs using a single fiber pullout test. Composites 21, 389-395.
                    Prel, Y.J.,  Davies, P., Benzeggagh, M.L. and de Charentenay, F.X. (1989). Model I and I1 delamination
                       of thermosetting and thermoplastic composites. In Composite Materials: Fatigue and Fracture, 2nd
                       Volume,  ASTM  STP 1012. ASTM, Philadelphia, PA, pp. 251-269.
   102   103   104   105   106   107   108   109   110   111   112