75: 489–495.

                   132.  Sevkat, E., Liaw, B., Delale, F., and Raju, B. B., “Drop-weight impact of plain-
                         woven  hybrid  glass-graphite/toughened  epoxy  composites,”  Compos.  Part  A

                         Appl. Sci. Manuf., 2009. 40(8): 1090–1110.
                   133.  ASTM  International.  “Standard  test  method  for  measuring  the  damage

                         resistance  of  a  fiber-reinforced  polymer  matrix  composite  to  a  drop-weight
                         impact event,”. United States, D7136/D7136M-12. 2012.

                   134.  Zhao, H., “Material behaviour characterisation using SHPB techniques , tests

                         and simulations,” Comput. Struct., 2003. 81(0): 1301–1310.
                   135.  Zhao,  H.  and  Gary,  G.,  “On  the  use  of  SHPB  techniques  to  determine  the

                         dynamic  behaviour  of  materials  in  the  range  if  small  strains,”  Int.  J.  Solids
                         Struct., 1996. 33(23): 3363–3375.

                   136.  Akil, H. M., De Rosa, I. M., Santulli, C., and Sarasini, F., “Flexural behaviour
                         of  pultruded  jute/glass  and  kenaf/glass  hybrid  composites  monitored  using

                         acoustic emission,” Mater. Sci. Eng. A, 2010. 527(12): 2942–2950.

                   137.  Li,  Z.  and  Lambros,  J.,  “Determination  of  the  dynamic  response  of  brittle
                         composites  by  the  use  of  the  split  Hopkinson  pressure  bar,”  Compos.  Sci.

                         Technol., 1999. 59: 1097–1107.

                   138.  Padmavathi, T., Naidu, S. V., and Rao, R., “Studies on mechanical behavior of
                         surface modified sisal fibre - epoxy composites,” J. Reinf. Plast. Compos., 2012.

                         31(8): 519–532.
                   139.  Rao, H. R., Kumar, M. A., and Reddy, G. R., “Hybrid composites : Effect of

                         fibers on mechanical properties,” Int. J. Macromol. Sci., 2011. 1(1): 9–14.
                   140.  B. Gibson, S. Cumiskey, W. C., “Compaction of fiber reinforcements,” Polym.

                         Compos., 2002. 23(3): 307–318.

                   141.  Zhu, S. and Chai, G. B., “Damage and failure mode maps of composite sandwich
                         panel subjected to quasi-static indentation and low velocity impact,” Compos.

                         Struct., 2013. 101: 204–214.
                   142.  David-West, O. S., Banks, W. M., and Pethrick, R. A., “A study of the effect of

                         strain rate and temperature on the characteristics of quasi-unidirectional natural
                         fibre reinforced composites,” in Proceedings of the Institution of Mechanical

                         Engineers, 2010. Glasgow: Journal of Materials: Design and Applications. 2010.

                         1–20.
                   143.  Kersani, M., Lomov, S. V, Van Vuure, A. W., Bouabdallah, A., and Verpoest,

                                                           172